JP4236904B2 - How to control carbon dioxide emissions - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for suppressing carbon dioxide that generates carbon dioxide in a combustion process, and more particularly, to a method for suppressing carbon dioxide in an organic material that is a target of carbon dioxide allocated emission. The present invention also relates to a method for carbonizing an organic material related to the suppression of carbon dioxide in an organic material that emits carbon dioxide in the combustion process, and more particularly, carbon dioxide for organic material waste that emits carbon dioxide in the incineration process. The present invention relates to a carbonization treatment method and a suppression system for organic material waste related to suppression of wastewater. The present invention also relates to an organic material that generates carbon dioxide during a combustion process, and a carbon dioxide suppression method and a suppression system that fix carbon in an organic material waste in the form of charcoal.
[0002]
[Prior art]
At present, carbon dioxide is the gas that is emitted from human activities and has the greatest effect on global warming. Regarding the amount of carbon dioxide emissions in Japan, for example, the Kyoto Protocol has been adopted in a direction of reducing the carbon dioxide emissions by 6% from the base year of 1990 with the target period from 2008 to 20012. In the future, Japan will have to proceed with the reduction of carbon dioxide emissions in accordance with the target value for reducing carbon dioxide emissions. However, apart from this, if the carbon dioxide emissions of other countries are below the target value, the Kyoto Protocol will purchase the difference in carbon dioxide emissions from the other countries and reduce the carbon dioxide emissions target. A so-called emissions trading system is added to the value. Conventionally, annual or biennial plant-derived wastes such as straw and rice husks are produced in large quantities, wither and decay, are utilized by microorganisms and released as carbon dioxide. Therefore, the amount of carbon dioxide generated is included in the carbon dioxide emission.
[0003]
[Problems to be solved by the invention]
When there is an increase in demand that increases carbon dioxide emissions in the market, the carbon dioxide emissions must be increased in response to the demand. However, if the target value of carbon dioxide emissions is regulated in this way, even if there is a demand to increase the amount of carbon dioxide emissions in the market, carbon dioxide will be discharged beyond the target value of emissions. This is a problem because it cannot respond to the increase in demand that increases carbon dioxide emissions in the market.
An object of the present invention is to overcome the problem that the use of fuel that emits carbon dioxide is restricted due to the regulation of the target value of carbon dioxide emission, and the increase in market demand cannot be met.
[0004]
[Means for Solving the Problems]
An object of the present invention is to provide a carbon dioxide emission suppression method capable of responding to an increase in demand that increases the carbon dioxide emission amount in the market without exceeding the carbon dioxide restriction frame. The inventors of the present invention, for example, plant-derived waste and combustible waste such as straw, rice husk, garbage, sewage sludge, etc. that have been conventionally incinerated, are carbonized to form charcoal, and this is used for underground or concrete molding. Focusing on the fact that carbon dioxide can be occluded in the form of carbon by being buried in the body or by being mixed with soil, it has reached the present invention.
[0005]
That is, in the present invention, an organic material subject to carbon dioxide quota emission is dry-distilled to form organic material charcoal, and the formed organic material charcoal is sampled to collect an organic material charcoal analysis sample. Measure the fixed carbon percentage of the collected organic material charcoal analysis sample, measure the weight of the organic material charcoal and bury it in the concrete molded body or ground, and bury it in the concrete molded body or ground. The carbon content of the organic material charcoal obtained is determined from the weight of the organic material charcoal buried and the fixed carbon percentage of the organic material charcoal, and the amount of carbon buried in this concrete molded body or underground is converted into the amount of carbon dioxide. The carbon dioxide control method is characterized in that the amount of carbon dioxide is used as a basis for a unit of carbon dioxide emission reduction. Dry distilled organic material of interest in front Measuring the weight of the organic material, sampling the organic material, collecting an analysis sample of the organic material, measuring a fixed carbon percentage for the analysis sample of the organic material, and measuring the sampled organic material The material is carbonized to form an organic material charcoal, the weight of the formed organic material charcoal is measured, and at least a portion of the organic material charcoal whose weight has been measured is measured to measure the weight of the concrete molded body or ground. The amount of carbon embedded in the concrete molded body or the ground, the weight of the organic material, the fixed carbon percentage of the organic material, and the concrete molded body or the organic material embedded in the ground with respect to the formed organic material charcoal Obtained from the weight ratio of charcoal, convert the amount of carbon embedded in this concrete molded body or underground into the amount of carbon dioxide, and discharge this carbon dioxide amount to carbon dioxide There carbon dioxide suppression method, which comprises the basis for reduced unit, In addition, the present invention carbonization of organic material to be carbon dioxide allocated emissions in front And measuring the weight of the organic material, sampling the organic material, collecting an analysis sample of the organic material, measuring the volatile content of the analysis sample of the organic material, The For volatile matter, further measure the carbon content of the volatile matter. The The amount of carbon contained in the volatile matter is obtained, the sampled organic material is dry-distilled to form an organic material charcoal, and at least a part of the formed organic material charcoal is measured for weight to form a concrete. This concrete molding is obtained by determining the amount of carbon buried in the concrete molded body or the ground from the weight of the organic material coal buried in the body or the ground, and the fixed carbon percentage of the organic material coal buried in the concrete molded body or the ground. Convert the amount of carbon buried in the body or the ground into the amount of carbon dioxide, based on this amount of carbon dioxide as the basis of the carbon dioxide emission reduction unit, convert the amount of carbon contained in the volatile matter into the amount of carbon dioxide, The present invention relates to a method for suppressing carbon dioxide, characterized in that the carbon dioxide emission is used, and the present invention further relates to a computer system of a carbon dioxide emission manager, diacid The computer system of the carbon emission reduction administrator and each business entity computer system for which the allocated emission amount of carbon dioxide emission is set are allocated in the carbon dioxide emission trading system configured to be connected to each other via the Internet. The organic material to be discharged is dry-distilled to form organic material charcoal, and the formed organic material charcoal is sampled to collect an organic material charcoal analysis sample, and the collected organic material charcoal analysis sample The fixed carbon percentage is measured, and at least a part of the organic material charcoal is measured by weight and embedded in a concrete molded body or underground, and the carbon content of the concrete molded body or organic material charcoal buried in the ground is determined. Calculated from the weight of the buried organic material charcoal and the fixed carbon percentage of the organic material charcoal. Registration to apply carbon dioxide emission reduction unit registration based on the reduced carbon dioxide emissions by converting the amount of carbon buried in the body or the ground into the amount of carbon dioxide The computer system of the application entity that is a member of the carbon dioxide emission trading system, the identification data of the computer system of the registration application entity, registration, to the computer system of the carbon dioxide emission manager Data on the reduced carbon dioxide emission data to be applied and registration application data thereof, organic material coal embedment business entity, concrete molded body, or embedment report data of organic material coal embedded in the ground, concrete molded body or underground Burial weight data of buried organic material charcoal and Have Percentage of fixed carbon in organic material charcoal data The carbon dioxide emission manager computer system transmits to the carbon dioxide emission reduction manager computer system the reduced carbon dioxide emission data transmitted from the computer system of the registration application entity, its confirmation request data, Embedding report data of organic material charcoal burial enterprises, concrete molded body or buried material weight data of organic material charcoal buried in the ground, the organic material charcoal Solid The constant carbon percentage data and the confirmation carbon dioxide emission confirmation request number data are transmitted, and the carbon dioxide emission reduction manager's computer system requests confirmation of the reduction carbon dioxide emission from the computer system of the carbon dioxide emission manager. In response to the transmission of data, the transmitted reduced carbon dioxide emission data is used as the organic material coal embedment report data, the concrete molding or the embedded material weight data of the organic material coal embedded in the ground, and the Compared with the reduced carbon dioxide emission data calculated based on the fixed carbon percentage data of the organic material that is the material of the organic material charcoal, it is confirmed that the difference is within the allowable range, and the confirmed reduced carbon dioxide The carbon emission data and the confirmation data are transmitted to the computer system of the carbon dioxide emission manager. The computer system of the emission manager receives the confirmed reduced carbon dioxide emission data and the confirmation data from the carbon dioxide emission reduction manager's computer system, and converts it into the confirmed reduced carbon dioxide emission data. The carbon dioxide emission reduction unit is registered based on this, and the carbon dioxide allocation emission data obtained by subtracting the reduction carbon dioxide emission data from the carbon dioxide allocation emission data of the registration application entity is reduced by the registration application entity. And registering the registered reduced carbon dioxide emission reduction unit and the reduced carbon dioxide allocation emission amount to the computer system of the registration application entity, and , The registered carbon dioxide emission reduction unit of the registration application entity is In addition, the present invention provides a method for suppressing carbon dioxide, which is characterized in that it is transmitted to the computer system of all business entities that participate in the system and is disclosed for use in carbon dioxide emissions trading. The computer system of the volume manager, the computer system of the carbon dioxide emission reduction manager, and each business entity computer system in which the allocated emission amount of the carbon dioxide emission is set, is configured to be connected to each other via the Internet. In the volume trading system, before the organic material subject to carbon dioxide quota emission is dry-distilled, the weight of the organic material is measured, the organic material is sampled, and an analysis sample of the organic material is collected. The analysis sample of the organic material is measured for volatile content, carbon content and fixed carbon percentage of the volatile content, and The organic material from which the analysis sample was collected is dry-distilled to form organic material charcoal and volatile matter, and the weight of the formed organic material charcoal and volatile matter is measured. At least a part of the material is weighed and embedded in the concrete molded body or the ground, the amount of carbon embedded in the concrete molded body or the ground, the weight of the organic material, the fixed carbon percentage of the organic material, and the formed Reduced carbon dioxide, calculated from the weight ratio of the organic material charcoal to the organic material charcoal or the organic material charcoal buried in the ground The amount of carbon contained in the volatile matter is converted into carbon dioxide, and the amount of carbon dioxide emitted is calculated as the amount of carbon dioxide emitted. The computer system of the registration application entity that applies for the registration of carbon dioxide emission reduction units as the reduced carbon dioxide emission amount, and that subscribes to the carbon dioxide emission trading system, To the computer system of the administrator, the identification data of the computer system of the registration application entity, the weight data of the organic material subjected to the carbonization process, the volatile content data of the organic material, the organic substance obtained by the carbonization process Carbon content data of raw material coal, carbon content data of volatiles generated by the carbonization process, fixed carbon percentage data of the organic material, of the organic material coal obtained by dry distillation is embedded in concrete or underground Transmit reduced carbon dioxide emissions data and combustion carbon dioxide emissions data, including data on the disposal of organic material coal, The computer system of the carbon dioxide emission manager has the reduced carbon dioxide emission data, the combustion carbon dioxide emission data, and the confirmation request number data of the reduced carbon dioxide emission transmitted from the computer system of the registration application entity. The confirmation request data of the reduced carbon dioxide emission is transmitted to the computer system of the carbon dioxide emission reduction manager, and the computer system of the carbon dioxide emission reduction manager transmits the reduced carbon dioxide emission transmitted from the computer system of the carbon dioxide emission manager. Calculated based on the carbon emission confirmation request data and check the reduced carbon dioxide emissions and combustion carbon dioxide emissions, and the confirmed reduced carbon dioxide emissions are compared with the reduced carbon dioxide emissions submitted for registration To confirm that the difference is within the acceptable range. The confirmation report data of the carbon dioxide emission reduction is transmitted to the carbon dioxide emission management computer system, and the confirmed combustion carbon dioxide emission is compared with the combustion carbon dioxide emission submitted for registration. Confirming that the difference is within the range, the confirmation report data of the confirmed combustion carbon dioxide emission is transmitted to the carbon dioxide emission manager computer system, and the computer system of the carbon dioxide emission manager Receive the confirmed reduction carbon dioxide emission and the confirmation data from the computer system of the carbon dioxide emission reduction administrator, register the carbon dioxide emission reduction unit based on the confirmed reduction carbon dioxide emission data, Carbon dioxide, which is obtained by subtracting the reduced carbon dioxide emission data from the carbon dioxide quota emission data of this registration application entity The allocated emission data is registered as the reduced carbon dioxide allocated emission data of the registration application entity, and the registered reduced carbon dioxide emission reduction unit and the reduced carbon dioxide allocated emission are In addition to transmitting to the computer system of the registration application entity, the registered carbon dioxide emission reduction unit of the registration application entity is also transmitted to the computer system of all entities participating in the carbon dioxide emissions trading system and disclosed. The carbon dioxide emission trading, and the present invention also provides a method for suppressing carbon dioxide. ,two The computer system of the carbon oxide emission manager, the computer system of the carbon dioxide emission reduction manager, and each business entity computer system in which the allocated emission amount of carbon dioxide emission is set are connected to each other via the Internet, and carbon dioxide An emission trading system is configured, and in this system, the computer system of the carbon dioxide emission manager, the computer system of the carbon dioxide emission reduction manager, and each business entity in which the allocated emission amount of the carbon dioxide emission is set. Each computer system is provided with individual identification data, and the computer system of the carbon dioxide emission manager includes identification data, carbon dioxide allocation emission data, and Carbon dioxide emission reduction unit data registration means, carbon dioxide emission Based on the identification data of the reduction manager, the confirmed reduction carbon dioxide emission data sent from the computer system of the carbon dioxide emission reduction manager, and the means for registering the confirmation data, and the confirmed reduction carbon dioxide emission data A calculation disclosure means for calculating carbon dioxide emission reduction unit data, changing the carbon dioxide allocation emission amount by the calculated carbon dioxide emission reduction unit, and disclosing the carbon dioxide emission reduction unit
The CO2 emission reduction manager's computer system is equipped with the CO2 emission manager's computer system identification data, the carbon dioxide emission manager's computer system confirmed requested reduction CO2 emission Registration response means for registering volume data and confirmed reduced carbon dioxide emission data, and transmitting the confirmed reduced carbon dioxide emission data and confirmation data to the computer system of the carbon dioxide emissions manager, reduction requested for confirmation Computation means for comparing and calculating the carbon dioxide emission data and the confirmed reduced carbon dioxide emission data, and at least one of the computer systems of the business entity for which the carbon dioxide allocation emission is set is Volume manager identification data and carbon dioxide quota allocated to the entity Register the volume data, and report the used carbon dioxide emissions to the carbon dioxide emissions manager's computer system. And a registration application means for applying for registration of the reduced carbon dioxide emission data to a computer system of a carbon dioxide emission manager, a volatile matter / fixed carbon percentage measurement means for organic material, and a carbon content measurement means for volatile matter. Carbonization means for carbonizing the organic material subject to the carbon dioxide allotment of the business entity, and the concrete molded body or the ground of the organic material charcoal embedded in the organic material charcoal formed by the carbon dioxide measurement data and the measurement data of the organic material Reduced CO2 emissions by calculating the equivalent CO2 emissions from the buried processing report data embedded in Sometimes carbon dioxide suppression system according to claim that a prime emission data calculating means.
In the carbon dioxide suppression method of the present invention, the carbon dioxide emission trading system is configured such that when the business entity that has received the disclosure wishes to receive the carbon dioxide emission reduction unit, the business entity that receives the carbon dioxide emission reduction unit The computer system, together with the identification data of each of the entities that transfer the carbon dioxide emission reduction unit that has been agreed to transfer the carbon dioxide emission reduction unit and the entity that receives it, and the carbon dioxide emission reduction unit transfer certificate data related to the transfer , Transferring the application data for the transfer of the carbon dioxide emission reduction unit to the computer system of the carbon dioxide emission manager, and the computer system of the carbon dioxide emission manager of the transferred entity by the computing system. Carbon dioxide emission reduction unit related to transfer from carbon dioxide emission reduction unit data While subtracting the data, the carbon dioxide quota emission data of the transferred entity is added to the carbon dioxide emissions corresponding to the transferred carbon dioxide emission reduction unit. 6. The method of suppressing carbon dioxide according to claim 4 or 5, wherein the method is registered as quantity data, and the registered increased carbon dioxide allocation emission quantity data is transmitted to the computer system of the business entity that has been transferred. And of the present invention Carbon dioxide suppression method Organic materials are perennial or perennial or perennial plants and one or more stems, leaves or root waste, plastic waste, juice waste, waste paper, waste wood, plastic waste, sewage sludge, animal manure, food Sludge, compost, food waste, fruit and vegetable residues or papers, or a mixture of two or more of the foregoing.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
In the present invention, first, a business entity such as a person, a corporation, a country, or the like who is subject to the restriction of carbon dioxide emission to join the carbon dioxide emission trading system is registered in the computer. Because carbon dioxide emissions must be reduced, for example, each individual entity is allocated a carbon dioxide emission within the carbon dioxide reduction target, and each entity is responsible for this allocated carbon dioxide. Within the emission quota, for example, fuel can be used to emit carbon dioxide and conduct business. For example, a carbon tax or an environmental tax may be imposed in proportion to the amount of fuel sold or consumed for the carbon dioxide emission. However, an organic material that emits carbon dioxide is carbonized by, for example, dry distillation, and the charcoal is embedded in the ground as carbon, used in the ground as a soil conditioner or humidity conditioner, or in cement. When used as a black or gray color cement, or in a concrete molded body and used for buildings and reefs, it does not emit carbon dioxide. Therefore, in this way, the organic material subject to the carbon dioxide quota emission amount is carbonized to charcoal, and by using it in applications where carbon dioxide is not formed, the regulated carbon dioxide emission amount is Do not use it. Until now, organic materials subject to carbon dioxide quota emissions that have always been incinerated are used in applications where carbon dioxide is not generated by dry distillation. A reduction unit is generated, which effectively contributes to the reduction of carbon dioxide emissions.
[0007]
In the present invention, in order to reduce the carbon dioxide emission as much as possible within the framework of the carbon dioxide allotment, the organic material subject to the carbon dioxide allotment is carbonized to form the organic material charcoal. Then, the formed organic material charcoal, for example, sprayed on the ground as a soil conditioner, or embedded in a concrete molded body as a filler of a concrete molded body, embedded or buried in the ground or concrete molded body, It is fixed in the ground or in a concrete molded body. In the present invention, the organic material subject to the carbon dioxide allotment emission amount is dry-distilled to form the organic material charcoal, the formed organic material charcoal is sampled, and the organic material charcoal analysis sample is collected. Then, the fixed carbon percentage was measured for the collected organic material charcoal, and at least a part of the sampled organic material charcoal was buried in the concrete molded body or ground, and the concrete molded body or ground was buried. Obtain the amount of carbon contained in the organic material charcoal based on the weight of the concrete material or the organic material coal buried in the ground and the measured percentage of fixed carbon, and convert the obtained amount of carbon to the amount of carbon dioxide. The amount of carbon dioxide fixed in the concrete molded body or in the ground is used as the basis for the unit of carbon dioxide emission reduction. It suppresses the amount. In the present invention, the organic material charcoal is buried in the ground, or the organic material charcoal buried in the ground is a state in which the organic material charcoal is sprayed on the surface of the soil or on the ground surface, and is dispersed and buried in the soil or the ground. It means a state of being buried or cultivated or buried in the ground. In the present invention, the organic material charcoal is embedded or embedded in the concrete molded body, or the organic material charcoal embedded or embedded in the concrete molded body is a state in which the organic material charcoal adheres to the concrete molded body surface. Or it means the state embedded in the concrete compact. In the present invention, the organic material is bamboo, cocoon, rice husk, buckwheat husk, sugar cane squeezed cocoon, pruned tree branch or leaf, etc. It means a waste material mixture that combines two or more of these waste materials, such as plant waste materials, plastic waste materials, juice squeezed rice cake, sewage sludge, livestock dung, food sludge, compost, garbage, fruit and vegetable residues or papers.
[0008]
In the present invention, an organic material, for example, a plant-derived waste such as annual or biennial plant such as rice cake or sugar cane squeezed rice cake or pruned branches, plastic waste material or other organic material is carbonized by dry distillation, charcoal material, etc. It can be disposed in the ground in the form of, and can be disposed of while suppressing the generation of carbon dioxide. Solid In the present invention, the disposal of organic materials, such as plant-derived waste, which is the target of carbon dioxide emission, in the present invention, such as in the form of concrete, buried in the ground, or soil improvement, Compared with conventional methods of incineration or septic treatment of plant-derived waste, it does not generate carbon dioxide and is stored as a carbon source in preparation for the future depletion of fossil fuels. Can also be used as a soil conditioner. In the present invention, in order to prevent the charcoal generated by dry distillation of the organic material from being used as a fuel, when the charcoal is used as a soil amendment material, etc., an incombustible soil amendment material such as an incombustible material is mixed. preferable. Moreover, in this invention, charcoal can be mixed with a color cement or a concrete molded object, and can be used for a building, a fishing reef, etc.
[0009]
In the present invention, the reduced carbon dioxide emission is calculated by converting the amount of carbon contained in the organic material charcoal embedded in the concrete molded body or in the ground into the amount of carbon dioxide. Here, the amount of carbon contained in the organic material charcoal embedded in the concrete molded body or in the ground is the amount of carbon that is stably fixed in the concrete molded body or in the ground. Organic material charcoal generates volatile matter in the process of generating from the organic material of the material. Since the volatile matter contains carbon and burns to emit carbon dioxide, the carbon content of the volatile matter is converted into carbon dioxide and counted as carbon dioxide emission. However, the carbon content of the organic material charcoal formed by dry distillation and buried in the ground or concrete molded body is fixed to the weight of the organic material charcoal buried in the ground or concrete molded body. It can be calculated by multiplying by the carbon percentage, or the weight of the embedded organic material is multiplied by the fixed carbon percentage of the organic material, and further embedded in the ground or in the concrete molding for the obtained organic material charcoal. It can be calculated by multiplying the weight ratio of the organic material charcoal. The carbon amount of the organic material charcoal buried in the concrete molded body thus obtained is based on the carbon dioxide emission reduction unit as the carbon dioxide emission fixed in the ground or in the concrete molded body. However, since the generation of volatile components in the carbonization stage cannot be avoided, the emission of carbon dioxide corresponding to the amount of volatile components within the quota of carbon dioxide allocation is unavoidable. Thus, when carbonizing an organic material to produce an organic material charcoal, it is necessary to measure the volatile matter generated and the carbon content of the volatile component to calculate the carbon dioxide emission.
[0010]
In the present invention, prior to the dry distillation treatment (including thermal decomposition treatment) of the organic material, the organic material is sampled from the organic material to be subjected to the dry distillation treatment, and an analysis sample of the organic material is collected. And measure the percentage of fixed carbon. For volatile matter, the carbon content in the volatile matter is measured by elemental analysis, etc., the amount of carbon in the volatile matter is determined, and the carbon dioxide emission is calculated by conversion. Since the volatile matter contained in the organic material charcoal is included in the volatile matter measured when measuring the fixed carbon percentage of the organic material, it is not counted again. The carbon amount of organic material charcoal is the carbon amount of organic material of organic material charcoal, so measure the fixed carbon percentage of organic material of raw material of organic material charcoal and calculate from the weight of organic material and its fixed carbon percentage Alternatively, it may be calculated from the weight ratio of the organic material charcoal to the organic material and the fixed carbon percentage of the organic material charcoal. The amount of carbon of the organic material charcoal embedded in the concrete molded body or underground can be converted into the amount of carbon dioxide to be reduced carbon dioxide emission.
[0011]
In the carbonization step of the present invention, the organic material is partially roasted in a low-oxygen atmosphere, and the organic material remaining without being roasted is carbonized by the roasting heat, and is formed from the lower part of the formed coal layer to the outside air. While being passed through the space where is blocked, it can be cooled by water cooling or the like to be organic material charcoal. The organic material charcoal thus formed is in a granular form and is suitable for spraying into the ground as a soil conditioner. In the present invention, when an organic material that is originally incinerated is carbonized and fixed in a concrete molded body or in the ground, the carbon fixed in the concrete molded body or in the ground is essentially carbon dioxide. The power should not be carbon dioxide, it will be fixed in concrete moldings or carbon pits in the ground, so it will be buried in this concrete molding, buried in the ground or buried in the ground, concrete molding The carbon amount of the organic material coal fixed in the body or the ground is the amount of carbon that is not discharged into the atmosphere, and can be calculated as the reduced carbon dioxide emission amount in terms of the amount of carbon dioxide. Here, in order to obtain the carbon dioxide equivalent amount of the organic material coal buried in the ground, the carbon amount of the organic material coal must be known. Therefore, the carbon amount of the organic material coal can be obtained from the weight of the organic material coal and the measured fixed carbon percentage of the organic material coal by measuring the weight of the organic material coal and the fixed carbon percentage. In addition, the percentage of fixed carbon of organic material charcoal is the amount of organic material charcoal obtained by carbonizing organic material. of The weight is measured, sampled and an organic material charcoal analysis sample is collected, the fixed carbon percentage is measured for the organic material charcoal, and the weight is determined by the weight of the organic material charcoal x the fixed carbon percentage of the organic material charcoal. The amount of carbon of the organic material coal fixed in the concrete molded body or the ground is (weight of the organic material coal fixed in the concrete molded body or the ground) x (fixed carbon rate based on the fixed carbon percentage of the organic material coal) (Organic materials Charcoal Weight) x (organic material Charcoal (Fixed carbon ratio based on the fixed carbon percentage) x (weight of the concrete material or organic material coal fixed in the ground) / (weight of the obtained organic material coal). In this case, when fixing the total amount of the obtained organic material charcoal to the concrete molded body or the ground, (weight of the organic material charcoal fixed to the concrete molded body or the ground) / (obtained organic material charcoal) The weight) is 1. However, in any case, the analysis of the volatile content of the organic material as the raw material of the organic material charcoal is indispensable because of the volatile content. Therefore, in this case, the volatile content and the fixed carbon percentage of the organic material are obtained, and (weight of the organic material) × (fixed carbon rate based on the fixed carbon percentage of the organic material) × (the organic material fixed in the concrete molded body or the ground) It is preferable to obtain the carbon content of the concrete molded body or the organic material charcoal fixed in the ground by the weight of the material carbon) ÷ (weight of the obtained organic material charcoal) because dry distillation and analysis work are simplified.
[0012]
In the present invention, the organic material can be sampled prior to dry distillation or pyrolysis, and an analytical sample of the organic material can be collected. The organic material charcoal is sampled in the processes after the stage where the carbonization is finished and cooled, and an analysis sample of the organic material charcoal is collected. In the present invention, when the percentage of fixed carbon is obtained before dry distillation of the organic material, the volatile content of the organic material can be obtained, and further, from the carbon content measured by elemental analysis or the like of the volatile content, by the combustion of the volatile content. This is preferable because the amount of carbon dioxide discharged can be determined. The organic material is formed into lumps or granules before carbonization. In the case where the organic material is a lump or a granular material, since sampling is easy, it can be sampled and subjected to soot carbonization. The organic material is, for example, a rotary cone reducer, a snider reducer, a stunt hunt reducer, a cascade type reducer, a distributor type reducer, a cutter type reducer, or the like, according to the industrial waste sampling method of JIS K 0060. Can be used to sample. When the organic material is relatively large, it is preferable to crush, cut, or shape the organic material into a shape that is easy to be carbonized and easy to handle or to size before carbonization. When it is difficult to mold the organic material, the organic material is preferably molded by adjusting the water content to an appropriate level or using a binder, that is, a molding binder. As such a molding binder, for example, a molding binder generally used for granulation of powder can be used. In the present invention, before the organic material is molded, the organic material can be mixed with a carbonization yield improver of the organic material in addition to the molding binder.
[0013]
In the present invention, the carbon yield improver in the carbonization step of the organic material acts to suppress the burning of the organic material in the carbonization step of the organic material, and by using the carbon yield improver, The yield of the organic material charcoal obtained from the organic material can be increased. In the present invention, as the carbon yield improver of the organic material, a drug or substance that can inactivate the atmosphere of the carbonizing step can be used. In the present invention, an ammonium inorganic acid salt such as ammonium chloride or ammonium sulfate used as a carbon yield improver is mixed with an organic material in the form of an aqueous solution of an ammonium inorganic acid salt prior to forming the organic material. . In this way, the aqueous solution of ammonium inorganic acid salt mixed with an organic material generates water vapor by heat and pyrolyzes to generate ammonia gas in the process of carbonization to form an atmospheric gas containing water vapor and ammonia gas. Thus, a decrease in carbonization yield due to the ignition of the organic material can be prevented.
[0014]
In the present invention, the organic material mixture is molded into a lump so as not to be bulky by a molding apparatus such as a roll press. In the present invention, the lump means solids of various shapes that are easy to handle, such as columnar, rod-shaped, plate-shaped, corrugated-plate-shaped, square-shaped, spherical, spheroid-shaped, block-shaped and the like. Molded organic material mixtures are dried and cured prior to carbonization for ease of handling. The shape of the molded product is preferably a corrugated plate shape, a round bar shape, a spherical shape, and a spheroid shape so that a passage of hot air can be secured even if the molded product of the organic material mixture overlaps in the drying and curing step. Drying and curing of the molding of the organic material mixture can be performed at a temperature of 180 ° C. or lower. For example, drying and curing of the molding of the organic material mixture can be performed at a temperature in the range of 80 to 180 ° C. In particular, it is preferable to carry out at a temperature in the range of 150 to 180 ° C. because the drying and curing time can be shortened to about 3 hours, for example.
[0015]
In the present invention, the dried and cured organic material mixture molded product is sent to the carbonization step and carbonized by dry distillation at a temperature of 550 ° C. or lower. In the carbonization process by dry distillation, the molded product of the organic material mixture is first subjected to hot air for dry distillation heating controlled to a temperature of 550 ° C. or less containing almost no oxygen gas, for example, 150 ° C. to 450 ° C. It is heated up to about 2 hours over about 2 hours and subjected to dry distillation by thermal decomposition. The pyrolysis dry distillation product remaining without volatilization of the molded product of the organic material mixture subjected to the carbonization treatment by pyrolysis is further heated by a dry distillation heating gas controlled to a temperature of 550 ° C. or less containing almost no oxygen gas. When it is decomposed and the temperature of the pyrolysis dry distillation product reaches a temperature in the range of 450 ° C. to 550 ° C., a small amount of air is blown, for example, for about ¼ hour to make a slightly oxidizing atmosphere and does not volatilize. The pyrolysis dry distillation product remaining in step 1 is baked, and then this is air-cooled and water-cooled, and further completely extinguished to produce organic material charcoal.
[0016]
In the present invention, the drying and carbonization steps of the molded product of the organic material mixture may be performed continuously and continuously, or each step may be performed independently and batchwise. The drying and carbonization step of the organic material mixture can be performed, for example, in an internal or external heating rotary carbonization furnace or vertical carbonization furnace capable of continuous processing. Since the dried organic material is relatively easy to ignite, it can be carbonized by self-roasting. In this case, it can be performed without supplying hot gas to the carbonization furnace, and it is not necessary to provide a hot gas furnace attached to the carbonization furnace. Carbon dioxide and carbon monoxide containing carbon dioxide produced during the carbonization of organic materials is a so-called refined carbonization gas obtained by separating carbonized tar, pyroligneous acid and carbon dioxide, and contains gaseous hydrocarbons such as carbon monoxide and methane. The calorific value is about 1600 to 2300 Kcal / Kg. In the present invention, the purified carbonization gas can be used as a hot gas fuel for drying the molded product of the organic material mixture in order to effectively utilize the calorific value it holds. It can be obtained by burning organic material and / or low calorie gas.
[0017]
Thus, the organic material charcoal produced by dry distillation of the molded product of the organic material mixture is porous and highly ignitable, and thus light, excellent in breathability and water retention, phosphoric acid, potassium contained in plants, It has lime and bitter earth, and can be granulated in the form of its cocoon or using a binder, and packed in the size of a distribution unit and used as a soil improving material for flower cultivation. When organic material charcoal is used as a soil conditioner by spraying into the ground, it does not emit carbon dioxide, so it can be counted as a unit of carbon dioxide emission reduction. However, organic material charcoal is used as fuel for cooking and briquettes. If it does, it cannot be counted as a carbon dioxide emission reduction unit. When using it as a soil conditioner in order to be included in the carbon dioxide emission reduction unit, the matter indicating the fact, for example, the place of use, the area used, and the amount used as a soil conditioner shall be managed. Can be a requirement to receive registration of carbon dioxide emission reduction units in the carbon dioxide emissions trading system. .
[0018]
In the case of waste with a lot of moisture such as garbage and activated sludge, carbon or activated carbon obtained by dry distillation is added to lower the moisture content, and it is granulated or agglomerated and dried or dried. It is possible to dry-distill without doing. The charcoal obtained in this way is counted as a carbon dioxide emission reduction unit as soil improvement material or buried in the ground when garbage, activated sludge, etc. are incorporated into the target of the carbon dioxide quota emission amount. be able to. In the present invention, the organic material is thermally decomposed in a carbonization process such as dry distillation or thermal decomposition, and the generated volatile component is burned to become carbon dioxide, and the remaining solid content contains a small amount of components and ash that are not carbonized. Mostly carbon, it is chemically stable in concrete compacts or in the ground, and no carbon dioxide is generated. In the present invention, the carbon of the organic material can be obtained as a fixed carbon percentage. However, since the carbonization temperature is lower than the calcination temperature at the time of measuring the volatile content and the fixed carbon percentage, a part of the volatile content remains in the organic material coal obtained by carbonizing the organic material. Inevitable. When the organic material charcoal is buried in the concrete molded body or in the ground or sprayed into the soil as a soil conditioner, the carbon content of the organic material charcoal fixed in the concrete molded body or the ground is the weight of the organic material, It can be determined by the percentage of the fixed carbon of the organic material and the weight ratio of the organic material charcoal fixed to the organic material charcoal and the organic material charcoal obtained by dry distillation, or the organic material fixed to the concrete molding and the earth. It can be determined from the weight of the material charcoal and the fixed carbon percentage of the organic material charcoal. The amount of carbon of the organic material charcoal fixed in the concrete molded body and the ground thus obtained is the carbon content of the organic material charcoal fixed in the concrete molded body or in the ground. , Reduced carbon dioxide emissions. The reduced carbon dioxide emission amount, that is, the reduced carbon dioxide emission amount, is collected for a certain unit in the carbon dioxide emission trading and is counted as a carbon dioxide emission reduction unit.
[0019]
Therefore, the volatile matter generated in the carbonization treatment of the organic material contains flammable carbon and emits carbon dioxide. Therefore, the volatile matter generated in the dry distillation process of the organic material is subjected to elemental analysis, Carbon content is measured, and the measured carbon content is counted as carbon dioxide emissions. In the present invention, the organic material charcoal obtained in the dry distillation step can be obtained by obtaining a fixed carbon percentage from an analysis sample of the organic material charcoal sampled and collected. The measurement method of this fixed carbon percentage can be calculated | required, for example according to the fixed carbon percentage calculation method of coals and cokes-industrial analysis of JISM8812. The same applies to organic materials. That is, the fixed carbon percentage is a value obtained by subtracting the ash content (wt%) and the volatile content (wt%) in the anhydrous base sample from the anhydrous base organic material or organic material charcoal sample.
[0020]
In the present invention, the converted carbon dioxide amount is obtained by multiplying the weight of the organic material coal by the fixed carbon percentage of the organic material coal to obtain the carbon amount of the organic material coal, and giving this carbon amount by the molecular weight of carbon dioxide / carbon atomic weight. It can be obtained by multiplying by the coefficient obtained. In the present invention, the reduced carbon dioxide emission can be obtained by converting the carbon content of the organic material coal fixed in the concrete molded body or in the ground into the carbon dioxide content.
[0021]
In the present invention, when measuring the weight and fixed carbon percentage of the organic material subject to carbon dioxide quota emission, the organic material before dry distillation and the organic material coal obtained by carbonization of the organic material, The amount of carbon obtained from the weight of organic material before carbonization and the percentage of fixed carbon is always the same as the amount of carbon obtained from the weight of organic material charcoal obtained from the organic material and the percentage of fixed carbon. When the value is obtained, measure the volatile matter and fixed carbon percentage of the organic material sample collected by the sampling method prior to dry distillation of the organic material subject to the carbon dioxide allotment emission, and the carbon dioxide emission and organic matter due to the volatile matter are measured. Reduced carbon dioxide emissions from material charcoal can be determined. Since the measurement conditions for the fixed carbon percentage are set to be the same, the carbon amount of the organic material can be the carbon amount in the organic material coal generated in the dry distillation step. However, the analysis is error-prone and, in addition, the fixed carbon percentage, which is the basis for calculating the reduced carbon dioxide emissions, is the fixed carbon percentage of the organic material coal, so accurate reduced carbon dioxide emissions. In determining the amount, a fixed carbon percentage for the organic material charcoal is required.
[0022]
When organic material charcoal obtained by dry distillation of organic material that is subject to carbon dioxide quota (carbon dioxide emission allowance) with known fixed carbon percentage is buried in the ground as a soil improvement material, for example Since it is the amount of carbon fixed in the ground (including when it is spread on the ground and buried in the ground) and is not emitted as carbon dioxide, it can be counted as a carbon dioxide emission reduction unit. When the carbon dioxide emission reduced by fixing to the concrete molded body and the ground is used as the carbon dioxide emission reduction unit, the reduced carbon dioxide emission is calculated by subtracting it from the carbon dioxide emission. . In the present invention, the amount of carbon fixed or buried in the concrete molded body includes the amount of carbon fixed on the surface of the concrete molded body and / or the amount of carbon buried in the concrete molded body, and is fixed or buried in the ground. The amount of carbon obtained includes the amount of carbon dispersed on the ground or the ground and / or the amount of carbon fixed on the ground or the ground and the amount of carbon buried in the ground and / or the amount of carbon fixed in the ground.
[0023]
In the present invention, the carbon dioxide allocation emission amount is allocated for the purpose of reducing the carbon dioxide emission amount, and is a target carbon dioxide emission amount to be achieved as a reduction obligation. Here, the organic material subject to the carbon dioxide allotment emission amount is used by burning or processing the organic material to discharge carbon dioxide. If the carbonization is carried out without reducing the carbon dioxide or discharging the carbon dioxide, the carbon dioxide emission will be reduced. The amount of carbon dioxide emission corresponding to the reduction of this emission is the reduced carbon dioxide emission amount, and is counted as a unit of carbon dioxide emission reduction. If the reduced carbon dioxide emissions are counted as a carbon dioxide emission reduction unit, they will be deducted from the allocated carbon dioxide emissions to achieve the target for reducing carbon dioxide, and the allocated carbon dioxide emissions will be deducted accordingly. Decrease. In this way, the entity that has reduced carbon dioxide emissions within the quota of carbon dioxide quota emissions will increase the unit of reduction of carbon dioxide emissions. Or, an entity that cannot meet the required carbon dioxide emissions with the current carbon dioxide allocation emissions is an entity that has a carbon dioxide emission reduction unit or carbon dioxide emission management that has purchased a carbon dioxide emission reduction unit. By assigning for a fee or free of charge from a person, the allocated carbon dioxide emission can be increased by the amount of carbon dioxide emission reduction units received. In this way, the business entity whose carbon dioxide emission allowance has been expanded can cover the required carbon dioxide emission, and can perform the necessary business.
[0024]
The carbon dioxide emission trading is a transaction related to the use of an emission reduction unit of carbon dioxide. In the present invention, the carbon dioxide emission reduction unit is, for example, that the carbon dioxide emission amount at the time of incineration of the organic material waste that has been conventionally incinerated is the use of the carbon dioxide allocated emission amount, whereas the organic material When the waste is carbonized by carbonization, valuable carbonized carbon is obtained, and the obtained carbonized carbon is not sprayed as fuel, but, for example, as a soil conditioner, or dispersed into the ground. It can be buried inside to reduce carbon dioxide emissions. Moreover, in this case, dry distillation of organic material waste only emits carbon dioxide by combustion of volatile matter generated during dry distillation, and the carbon of organic material waste carbonized by dry distillation is used as a soil improvement material. In this case, the carbon content contained in the charcoal of this organic material waste does not emit carbon dioxide. Will be effectively processed with carbon dioxide emission suppressed.
[0025]
In the present invention, the carbon dioxide emission allowance transaction can be configured between a carbon dioxide emission manager who manages the carbon dioxide allocation emission and each business entity to which the carbon dioxide allocation emission is allocated. That is, it is constructed by connecting the computer system of the carbon dioxide emission manager, the computer system of the carbon dioxide emission reduction manager, and the computer system of each business entity to which the carbon dioxide quota emission is allocated to the Internet via the router. The carbon dioxide emission trading internet system or the carbon dioxide emission trading internetwork system (hereinafter referred to as both carbon dioxide emission trading system). In this carbon dioxide emission trading system, the carbon dioxide emission manager, the carbon dioxide emission reduction manager, and the computer systems of each business unit in which the allocated carbon dioxide emission is set are connected to each other via a network, A carbon dioxide emissions trading system is configured, and each business entity to which a carbon dioxide emission manager, a carbon dioxide emission reduction manager, and an allotted emission of carbon dioxide emissions are set is unique. Identification data (for example, an address, a name, identification data, a personal identification number, or a combination of two or more of the business entity's address, etc.) is assigned to identify each computer system of the business entity.
[0026]
The computer system of the carbon dioxide emission manager has the identification data, the carbon dioxide quota emission data, the carbon dioxide emission reduction unit data, and the carbon dioxide quota emissions set for each business unit for which the carbon dioxide quota emission is set. Weight data of organic materials that have been carbonized by each entity, volatile content data and fixed carbon percentage data of the organic materials, carbon content data of organic material coal obtained by the carbonization, volatiles generated during the carbonization Carbon amount data, and organic material charcoal embedment processing report data, and carbon dioxide emission reduction manager identification data, carbon dioxide emission reduction manager's computer Reduced carbon dioxide emission confirmation report data sent from the system and the carbon dioxide emission confirmation report data , Calculation and registration means for carbon dioxide emission reduction units, calculation means for changing the carbon dioxide quota emission amount associated with the transfer of carbon dioxide emission reduction units by carbon dioxide emission trading, and carbon dioxide emission reduction units owned by the entity And a means for disclosing carbon dioxide emissions.
[0027]
The computer system of the carbon dioxide emission reduction manager is an organization that confirms the reduction carbon dioxide emission that has been applied for registration with the carbon dioxide emission manager from the application entity, and receives the request number data from the carbon dioxide emission manager. The registration method of the reduced carbon dioxide emissions and the carbon dioxide emissions that was requested and was registered by the entity to register the reduced carbon dioxide emissions and register the volatile combustion carbon dioxide emissions. And reducing carbon dioxide emissions for which registration application has been made, weight data of organic materials that have been carbonized by each entity for which carbon dioxide quota emissions are set, volatile content data and fixed carbon percentage data of the organic materials, Carbon content data of the organic material coal obtained by the carbonization treatment, carbon content data of volatile matter generated during the carbonization treatment, and the organic material coal Confirm the reduced carbon dioxide emissions and combustion carbon dioxide emissions based on the report data of the organic material charcoal embedded in the molded body or the business entity buried in the ground. Confirmed that the difference was within the allowable range and the reduced carbon dioxide emissions, and transmitted at least the carbon dioxide emissions management confirmation report data about the reduced carbon dioxide emissions, and the registration application Confirm that the combustion carbon dioxide emissions are within an acceptable range from the confirmed combustion reduction carbon dioxide emissions, and provide at least the carbon dioxide emissions manager with confirmation report data on the combustion carbon dioxide emissions. A confirmation system for transmission is provided. This reduced carbon dioxide emission amount and combustion carbon dioxide emission amount confirmation system may be able to transmit confirmation data or confirmation data of reduced carbon dioxide emission amount to the application entity as necessary or upon application.
[0028]
This CO2 emission reduction manager's computer system's reduced CO2 emission and combustion carbon dioxide emission confirmation system is transmitted from the computer system of the applying entity at the time of application, and reduced from the CO2 emission manager's computer system. Conversion data for combustion carbon dioxide emissions of volatile carbon that is transmitted to the computer system of the carbon dioxide emission reduction manager at the time of request for confirmation of carbon dioxide emissions, carbon dioxide emission conversion data for fixed carbon of organic materials, and Register the organic material charcoal embedment processing report data of the organic material charcoal carbon fixed treatment business entity with the organic material charcoal embedded in the concrete molded body or underground, calculate the reduced carbon dioxide emissions from these registered report data, Computation means to compare with the reduced carbon dioxide emissions applied for registration.
[0029]
Each of the business entity computer systems for which a carbon dioxide quota emission amount is set is registered with the identification data of the computer system of the business entity, the identification data of the carbon dioxide emission manager, and the identification data of the carbon dioxide emission reduction manager. In addition, the computer system of the business entity further comprising the organic material dry distillation means comprises a reduced carbon dioxide emission data processing system comprising the dry distillation means volatile and fixed carbon percentage measurement means and the volatile carbon component measurement means. ing. The reduced carbon dioxide emission data processing system includes a registration application means for the reduced carbon dioxide emission of the entity with respect to a carbon dioxide emission manager computer system, and a target of the allocated carbon dioxide emission of the entity. Volatile content data of the organic material, a registration means for the carbon component data of the volatile content, a volatile content equivalent carbon dioxide emission calculating means for calculating the carbon content of the volatile matter, and calculating a volatile matter combustion equivalent carbon dioxide emission, and Fixed carbon percentage data of organic material, weight data of organic material charcoal obtained by dry distillation, and organic material charcoal embedding process report data registration means of concrete molded body or organic material charcoal buried in the ground and the registered From the weight data of the organic material charcoal and the burial processing report data, the charcoal of the organic material charcoal embedded in the concrete molded body or underground Min is calculated, to calculate the conversion of carbon dioxide emissions buried processed organic material coal, and a computing means to reduce carbon dioxide emissions.
[0030]
The computer system of the business entity in which the organic material subject to the carbon dioxide allotment emission amount is carbonized, and the carbonized organic material charcoal is buried in the concrete molded body or underground is a computer system of the carbon dioxide emission manager. , Identification data of the entity, volatile content data of the organic material subject to the carbon dioxide quota emission amount, carbon component data of the volatile content, volatile matter combustion conversion carbon dioxide emission data, fixed carbon percentage data of the organic material, Weight data of organic material charcoal obtained by dry distillation, organic material charcoal embedding processing report data registration means of a concrete molded body or enterprise with organic material charcoal buried in the ground, weight data and embedding of the registered organic material charcoal Processing report data and converted carbon dioxide emission data of organic material coal that has been buried, With transmitting recording application data, transmits the registration data of carbon dioxide emission reduction units.
[0031]
The carbon dioxide emission manager's computer system receives the request for registration of the carbon dioxide emission reduction unit from the entity, and the carbon dioxide emission reduction manager's computer system has applied for registration to the reduced carbon dioxide Data related to emissions, that is, identification data of the entity, volatile content data of organic materials subject to carbon dioxide quota emissions, carbon component data of the volatile content, volatile matter combustion equivalent carbon dioxide emissions data, organic matter Fixed carbon percentage data of material, weight data of organic material charcoal obtained by dry distillation, and organic material coal embedding treatment report data registration means of concrete molded body or organic material charcoal buried in the ground and the registered organic material Send material coal weight data and burial processing report data, and equivalent carbon dioxide emission data of buried organic material coal. , And transmit the embedded amount of carbon dioxide confirmation request data, requesting confirmation of the buried amount of carbon dioxide.
[0032]
The computer system of the carbon dioxide emission reduction manager is based on the volatile matter data of the organic material that is the target of the carbon dioxide quota emission amount transmitted from the computer system of the carbon dioxide emission manager and the carbon component data of the volatile matter. Calculate the volatile matter equivalent carbon dioxide emission, register it as volatile matter equivalent CO2 emission data, fixed carbon percentage data of organic materials, weight data of organic material coal obtained by dry distillation and concrete molding Based on the organic material coal burying processing report data of the business entity that buried the organic material charcoal in the body or ground, the confirmed reduced carbon dioxide emissions and combustion carbon dioxide emissions were obtained, and this confirmed reduced carbon dioxide emissions The amount and combustion carbon dioxide emissions are compared to the reduction requested and carbon dioxide emissions requested for registration. Difference each both, together confirmed to be within an acceptable range, transmits a confirmation report reduce carbon dioxide emissions and combustion carbon dioxide emissions into the computer system of the carbon dioxide emissions administrator.
[0033]
The computer system of the carbon dioxide emission manager receives the transmission of the confirmation report data of the reduced carbon dioxide emission from the computer system of the carbon dioxide emission reduction manager, and based on the confirmed reduced carbon dioxide emission. Calculate the carbon dioxide emission reduction unit, register the carbon dioxide emission reduction unit data, and calculate the carbon dioxide emission amount by subtracting the reduced carbon dioxide emission amount from the carbon dioxide allocated emission amount of the registration application entity. The registered carbon dioxide emission amount data of the business entity is registered, and the registered registration data of the carbon dioxide emission reduction unit and the carbon dioxide emission amount is transmitted to the computer system of the registration application business entity.
[0034]
On the other hand, the registered carbon dioxide emission reduction unit and the reduced carbon dioxide emission of the registration application entity are transmitted to the computer system of all the entities that participate in the carbon dioxide emission trading system, and are disclosed. Provide carbon dioxide emissions trading. The applicant for registration can know the transmitted public contents by, for example, displaying it on a computer display or printing it. When the registration contents do not match the registration contents with the registration application data, the applicant requests correction of the carbon dioxide emission manager computer system via the computer network.
[0035]
In the carbon dioxide emissions trading system, for example, when organic material charcoal obtained by carbonizing organic materials is sprayed into the ground as a soil conditioner, the carbon dioxide emission manager is the carbon dioxide emission reduction manager. Let us confirm the fact that the charcoal we have applied for was used as a soil conditioner and the amount used. The CO2 Emission Reduction Manager confirms that the amount of charcoal used as a soil conditioner matches the application, confirms the reduced CO2 emissions, and confirms the reduced CO2 emissions. Then, the confirmation report data of the reduced carbon dioxide emissions is transmitted to the computer system of the carbon dioxide emissions manager. In this case, the carbon dioxide emission manager receives the confirmation report data of the reduced carbon dioxide emission from the carbon dioxide emission reduction manager, and confirms the reduction carbon dioxide emission confirmed for the registered entity. Based on this, calculate and register the carbon dioxide emission reduction unit, subtract the confirmed reduced carbon dioxide emission from the carbon dioxide quota emission, calculate and register the newly set carbon dioxide quota emission, Send registration data for carbon dioxide emission reduction units registered in the computer system of the entity that applied. The carbon dioxide emission manager announces to all the entities participating in the carbon dioxide emission trading system that the applied entity has a carbon dioxide emission reduction unit.
[0036]
In response to the disclosure of this CO2 emission reduction unit, an entity that does not meet the required CO2 emissions with the current CO2 emissions will exceed the allocated CO2 emissions and consume carbon dioxide. Entities must find a company that records carbon dioxide emissions in the carbon dioxide emission reduction unit from the computer network of carbon dioxide emission managers, and transfer the necessary carbon dioxide emission reduction units. I do. The computer system of the entity that receives carbon dioxide reduction carbon dioxide emissions is transferred to the computer system of the carbon dioxide emission manager, the identification data of the entity to be transferred and the entity to be transferred, the transfer data of the carbon dioxide emission reduction unit, and the carbon dioxide emission The reduction unit registration data is transmitted, and the application data of the procedure for transferring the carbon dioxide emission reduction unit possessed by the business unit to be transferred to the business unit to be transferred is transmitted. In response to this application procedure, the carbon dioxide emission manager transfers the carbon dioxide emission reduction unit of the business unit to be transferred to the business entity to be transferred, and the carbon dioxide emission equivalent to the carbon dioxide emission reduction unit received is transferred. Add the carbon dioxide quota emission of the business entity to be transferred, and register the carbon dioxide quota emissions that have been added and increased.
[0037]
The computer system of the carbon dioxide emission manager deletes the transferred carbon dioxide emission reduction unit of the transferred entity, and the carbon dioxide emission equivalent to the carbon dioxide emission reduction unit transferred to the transferred entity's carbon dioxide quota Add the amount to set the newly increased carbon dioxide emission. In this way, an entity that has been set up with a new increased carbon dioxide allocation by adding a carbon dioxide emission equivalent to the carbon dioxide emission reduction unit shall be able to cover the required carbon dioxide emission. It will be necessary business. In the present invention, a carbon dioxide emission trading system connects a carbon dioxide emission manager computer system and a computer system of a business in which a carbon dioxide allocation emission is set via a router or the Internet or a network. It is constituted by. The carbon dioxide emission manager notifies the change of the carbon dioxide allocation emission amount and the carbon dioxide emission reduction unit to both the business entity to be transferred and the transferred business entity through the computer network. Also, such changes in carbon dioxide emissions and carbon dioxide emission reduction units can be disclosed to business entities participating in this system via a computer network.
[0038]
In the present invention, the carbon dioxide emission manager can be a system that purchases carbon dioxide emission reduction units at a fixed price. In this case, the computer system of the carbon dioxide emission manager can purchase the carbon dioxide emission reduction unit from the business entity having the carbon dioxide emission reduction unit and have it stored in the computer system of the carbon dioxide emission manager. In this way, the computer system of the entity that wishes to transfer the carbon dioxide emission reduction unit transmits the carbon dioxide emission reduction unit transfer application data to the carbon dioxide emission management computer system, and the carbon dioxide emission amount Carbon dioxide emission reduction units will be transferred from the administrator's computer system at a specified price, and the carbon dioxide emission reduction units owned by the carbon dioxide emission manager will be subtracted, and the subtracted carbon dioxide emission reduction units will be transferred. The money is transferred to the computer system account of the carbon dioxide emission manager from the account of the computer system of the business entity that wishes to transfer. Transfer of carbon dioxide emission reduction units in these computer systems is performed by data transmission.
[0039]
【Example】
Examples of the present invention will be described below with reference to the drawings. However, the present invention is not limited to the following examples and description.
FIG. 1 is a schematic process diagram of a carbonization process of an organic material according to the present invention. FIG. 2 is a block diagram of a computer system in the carbon dioxide emission trading of the present invention.
In this example, molasses is used as a molding binder, and ammonium chloride is used as a carbonization yield improver.
[0040]
In the embodiment shown in FIG. 1, an organic material constant supply tank 2 into which a raw organic material 1 is placed is provided. In this example, the sampling of the organic material is performed at a constant amount at random time intervals by providing, for example, a cutter chute type reducer or a rotary hopper type reducer (not shown) at the outlet of the organic material fixed amount supply tank 2. Sampling of organic materials can be performed. The sampled organic material is pulverized and reduced by a reducer. After being reduced to a predetermined amount, pulverized and dried, the percentage of fixed carbon is measured. An organic material transfer conveyor 5 connected to the crusher 4 is connected to the outlet 3 of the organic material constant supply tank 2. The organic material sent to the crusher 4 is crushed by the crusher 5. Connected to the outlet 6 of the crusher 4 is a crushed organic material transfer conveyor 9 connected to the inlet 8 of the drying device 7. In this example, the organic material crushed material introduction path 10 branches to the drying path 7 via the on-off valve 11 so that the organic material crushed material transfer conveyor 9 can directly introduce the organic material crushed material into the drying device 7. Is provided. A double mixer 12 is provided at the inlet 8 of the drying device 7, and an outlet 13 of the crushed organic material transfer conveyor 9 is connected to the double mixer 12. In this example, the drying device 7 is a blower heating type drying device, and on the dry matter discharge side of the drying device 7, a dry matter discharge port 14 is provided in the lower portion, and a drying device exhaust gas outlet 15 is provided in the upper portion. Yes. In this example, the drying apparatus 7 is a co-current type in which the object to be dried and the heated gas move in the same direction, and waste heat is used as a heating gas for drying on the introduction side of the object to be dried in the drying apparatus. For this purpose, a carbonization furnace exhaust combustion gas introduction port 19 from an exhaust gas circulation introduction port 16 of the drying device 7 and a combustion furnace exhaust port 18 of the carbonization furnace exhaust combustion furnace 17 is provided.
[0041]
In this example, the drying device exhaust gas from the drying device exhaust gas outlet 15 of the drying device 7 is transferred by the dry exhaust fern 20. Since dust is present in the drying device exhaust gas discharged from the drying device exhaust gas outlet 15 of the drying device 7, the dust is sent to the cyclone separator 21 from the inlet 22, where the dust in the drying device exhaust gas is subjected to centrifugal force. Separated by The drying apparatus exhaust gas from which the dust has been separated is discharged from the fine particle side outlet 23 of the cyclone separator 21 to the exhaust gas flow path 24, and sent to the branch portion 25 of the exhaust gas flow path 24 by the dry exhaust fern 20, and a part thereof. It is sent from the exhaust gas branch passage 26 to the exhaust gas inlet 16 of the drying device 7. The drying device exhaust gas that is not branched by the branching section 25 is sent to the deodorizing device 27, burned by the combustion of fuel by the combustion device 28 provided in the deodorizing device 27, and released to the atmosphere.
[0042]
Further, in this example, when the waste molasses and dry distillation tar of the binder are blended in the organic material, the waste molasses supply path and dry distillation tar supply path (both not shown) of the binder are connected to the double mixer 12. is doing. Further, when ammonium chloride is mixed with an organic material as a carbonization yield improving agent, an ammonium chloride aqueous solution supply path (not shown) is connected to the double mixer 12.
[0043]
Therefore, the organic material or the organic material and waste molasses, carbonized tar or ammonium chloride aqueous solution or a mixture of two or more thereof are supplied to the double mixer 12 and mixed. The double mixer 12 incorporates a roll press mold roll 29, and the mixture containing the organic material mixed with the double mixer 12 and the molasses, dry distillation tar or ammonium chloride aqueous solution organic material is the roll of the double mixer 12. For example, it is formed into a plate-like material by the press mold forming roll 29. The molded product introduction path 8 from the roll press mold forming roll 29 is connected to the organic material introduction path 10, and the plate-shaped molded product molded by the roll press mold forming roll 29 is singly or pulverized organic material. The introduction path 10 is mixed with the pulverized organic material to be transferred and supplied to the drying device 7 through the organic material introduction path 10.
[0044]
In this example, the drying apparatus 7 has a carbonization furnace exhaust combustion gas discharge port 18 of the carbonization furnace exhaust combustion furnace 17 so that the carbonization furnace exhaust combustion gas from the carbonization furnace exhaust combustion furnace 17 can be used as a heat source. Is connected to the carbonization furnace exhaust combustion gas inlet 19 through the carbonization furnace exhaust combustion gas pipe 30. In the carbonization furnace exhaust combustion furnace 17, the low calorie gas generated in the carbonization furnace 31 and flowing out from the carbonization furnace exhaust outlet 32 is passed through the carbonization furnace exhaust gas pipe 33 of the carbonization furnace exhaust combustion furnace 17. It is introduced into the carbonization furnace exhaust gas inlet 34 and burned by the combustion of fuel by the combustion device 35 to form a carbonization furnace exhaust combustion gas having a temperature of 180 ° C. or lower, preferably 150 ° C. to 180 ° C. The carbonization furnace exhaust combustion gas formed here is supplied from the carbonization furnace exhaust combustion gas discharge port 18 to the carbonization furnace exhaust combustion gas introduction port 19 of the drying device 7 through the carbonization furnace exhaust combustion gas pipe 30. Then, the organic material mixture formed by the roll press mold forming roll 29 of the double mixer 12 and supplied to the drying device 7 is dried by heating and cured.
[0045]
The dried product discharge port 14 of the drying device 7 is connected to a dried product discharge conveyor 36, and the dried product discharge conveyor 36 is connected to a dried product transfer conveyor 37. In this example, the coarse particle side discharge pipe 40 connected to the coarse particle side discharge port 39 of the cyclone separator 21 is connected to the connection end 38 of the dry matter transfer conveyor 37 to which the dry matter discharge conveyor 36 is connected. The coarse particle component in the dust separated by the cyclone separator is introduced into the dry matter transfer conveyor 37. The discharge port 41 of the dry matter transfer conveyor 37 is connected to the dry matter distribution conveyor 42. A dried product storage tank 44 is provided below the end 43 of the dried product distribution conveyor 42, and the dried product is temporarily stored in the dried product storage tank 44. Moreover, the dry matter distribution conveyor 42 is connected to a dry matter return conveyor 46 provided below the intermediate portion 45 via an opening / closing door (not shown). This dry matter return conveyor 46 is connected to the double mixer 12 at the discharge side end portion 47, and the amount of dry matter returned by the dry matter return conveyor 46 is adjusted by opening and closing the door. The water content of the mixture formed within 12 can be adjusted to a water content suitable for granulation or molding.
[0046]
In this example, a carbonized raw material transfer conveyor 49 is connected to a supply port 48 formed below the dry matter storage tank 44. The discharge port 50 of the carbonized material transfer conveyor 49 is connected to the carbonized material introduction port 52 of the carbonization furnace 31 through the carbonized material transport path 51 connected thereto. In this example, the carbonization furnace 31 is a rotary kiln type carbonization furnace. The carbonized charcoal is discharged from the charcoal discharge port 53 of the carbonization furnace 31 to the introduction port 55 of the charcoal discharge conveyor 54 provided therebelow. The charcoal discharge port 56 of the charcoal discharge conveyor 54 is connected to the introduction port 58 of the cooler 57, and the charcoal discharged from the charcoal discharge port 56 is introduced into the cooler 57 through the introduction port 58 and cooled. The charcoal cooled by the cooler 57 is discharged from a discharge port 61 of a charcoal transfer conveyor 60 connected to a discharge unit 59 of the cooler 57 to a product tank 63 having a bagging machine 62 at a lower portion. Since the exhaust gas discharged from the exhaust port 64 of the cooler 57 contains dust, the exhaust gas is sent from the exhaust gas conduit 65 connected to the exhaust port 64 to, for example, a bag filter type dry dust collector 66 and collected. For charcoal sampling, for example, a cutter chute sampling device is disposed between the product tank 63 and the bagging machine 62, and the charcoal product is supplied from the charcoal product tank 63 to the bagging machine 62 having a level meter. Samples can be collected by the sampling device in stages.
[0047]
Example 1
In the embodiment shown in FIG. 1, an organic material having a particle size of 30 mm and a water content of 40 to 50% by weight is supplied to the organic material constant supply tank 2 at a rate of 100 parts by weight per hour, Molasses is fed at a rate of 70 parts by weight per hour, dry distillation tar is fed at a rate of 24 parts by weight per hour, and a 10% strength aqueous ammonium chloride solution is fed at a rate of 60 parts by weight per hour. Supplied. This mixture has an organic material content of 39.4% by weight, a molasses content of 27.6% by weight, a carbonized tar content of 9.4% by weight and an aqueous ammonium chloride content of 23.6%. Weight percent. This mixture is sent from the organic material constant supply tank 2 to the pulverizer 4 by the organic material transfer conveyor 5 for sampling and pulverized. This mixture was sampled by a cross belt sampler on the organic material transfer conveyor 5 for sampling. The sampled amount was incremented in lots 100 to 500, and the number of samples collected was 30. The pulverized organic material mixture is supplied from the organic material quantitative supply tank 2 to the pulverizer 4 and compressed into a plate-like material by the roll press mold forming roll 29 of the double mixer 12. The plate-like material molded by the roll press mold roll 29 is sent to a drying device 7 such as a blower dryer, and is sent from a carbonization furnace exhaust combustion furnace 17 through a carbonization furnace exhaust combustion gas pipe 30 to 150 ° C. It is dried and hardened by a carbonization furnace exhaust combustion gas containing almost no oxygen at 180 ° C. to form a relatively hard corrugated sheet.
[0048]
In this example, the plate-like material formed by drying with the drying device 7 is supplied to the carbonization furnace 31 and carbonized. In this example, the carbonization of the organic material in the carbonization furnace 31 is a formation in which the organic material of the carbonized raw material dried in an open flame is brought into contact, the organic material is incompletely combusted and carbonized by carbonization. Is done. The carbonization furnace exhaust gas is cooled, and the carbonized tar content and wood vinegar in the carbonization furnace exhaust gas are separated and recovered. In the cooling device 32, the cold dry distillation gas from which dry distillation tar and wood vinegar are condensed and separated is sent to a caustic soda cleaning device and cleaned with an aqueous caustic soda solution. The carbonization furnace exhaust gas from which tar and wood vinegar have been separated is sent to the carbonization furnace exhaust combustion furnace 17, where it is burned by the combustor 35 that burns kerosene and low-calorie gas. In this example, the carbonization furnace exhaust combustion gas having a temperature of 150 to 180 ° C. containing almost no oxygen gas is sent to the drying device 7 and used for drying the organic material. In this example, the carbonized organic material charcoal is cooled by water cooling in the cooler 57, taken out, collected in the product tank 63, and packaged by the bagging device 62 and the level meter 67.
[0049]
In this example, organic material charcoal was sampled at the stage of bagging, and the percentage of fixed carbon was analyzed. This product was sampled by a cutter bucket and a mold sampler when the organic material charcoal was introduced into the product tank. Since the product granularity was 10 mm, the sampled quantity was incremented in lots 100 to 500 and the number of samples collected was 30, but the size of the increment can be reduced. In this example, the yield of the organic material charcoal was 23% by weight with respect to the dried raw material organic material.
[0050]
The analysis result of the carbonized carbon obtained by this example is shown in the following table.
(table)
Analysis item Volatile content (%) Moisture content (%) Ash content (%) Fixed carbon percentage (%)
Sample name
Bagasse Charcoal 60 2.1 9.7 28.2
Charcoal 24.5 6.0 0.9 68.6
Bamboo charcoal 19.1 ~ 21.0 4.5 ~ 6.8 3.8 ~ 5.8 66.4 ~ 72.7
Rice husk charcoal 5.2〜9.8 1.5〜4.2 33.9〜58.6 34.7〜59.8
[0051]
FIG. 2 shows a carbon dioxide emission trading system 67 ′. The carbon dioxide emission trading system 67 ′ includes a computer system 68 of a carbon dioxide emission manager, a computer system 69 of a carbon dioxide emission reduction manager, and computers of a plurality of businesses to which a carbon dioxide allocation emission is assigned. Systems 70 and 71, etc. are connected to the Internet 72 via lines 73, 74, 75 or 76, respectively, each having a line, for example a router (not shown). The computer system 68 of the carbon dioxide emission manager, the computer system 69 of the carbon dioxide emission reduction manager, and the computer system of each business unit in which the allocated emission amount of carbon dioxide is set, constituting the carbon dioxide emission trading system 67 ′. Reference numerals 70 and 71 are assigned domain name, address, name, identification number data or personal identification number data for identifying a computer system, or identification data combining these two or more data, respectively.
[0052]
The computer system 68 of the carbon dioxide emission manager is connected to the carbon dioxide emission reduction manager computer system 69 via the lines 73 and 74 and the Internet 72, and the carbon dioxide quota discharge is established via the lines 75 and 76 and the Internet 72. It is connected to the computer systems 70 and 71 of each business unit in which the quantity is set. Through this connection, the computer system 68 of the carbon dioxide emission manager receives the identification data, the allocated carbon dioxide emission data, and the registration application data to the computer system 70 or 71 of each business entity. In addition to transmitting the number data, the identification data, the carbon dioxide quota emission data, the reduction carbon dioxide emission data applied for registration, and the carbon dioxide emission reduction confirmed by the carbon dioxide emission reduction manager for each computer system of each entity. An entity-specific registration system 77 is provided for registering the volume data and the confirmed reduced carbon dioxide emission data. Further, in the case of a business entity 70 that has produced a concrete molded body or an organic material charcoal for underground use, this business unit registration system 77 is a weight data, fixed carbon percentage data of the organic material produced. And volatile matter data, carbon content data in volatile matter, identification data of a carbon fixing treatment entity that embeds organic material charcoal in a concrete molded body or underground, weight data of organic material coal embedded by the carbon fixation treatment entity And registration means (not shown) for registering the fixed carbon percentage data and the burial processing report data, and registering the transfer of carbon dioxide emissions and carbon dioxide emission reduction units of the carbon dioxide emissions trading system. be able to.
[0053]
Further, the computer system 68 of the carbon dioxide emission manager is connected to the computer system 69 of the carbon dioxide emission reduction manager via the lines 73 and 74 and the Internet 72. The volume manager's computer system 68 causes the carbon dioxide emission reduction manager's computer system 69 to make the carbon dioxide emission reduction manager confirm the reduced carbon dioxide emissions applied for registration from the computer system 70 of the entity. In addition, for example, weight data of organic material, fixed carbon percentage data, volatile content data, carbon content data in the volatile content, and the organic material charcoal are used as a basis for confirming the reduced carbon dioxide emissions. Identification data of the carbon fixation treatment entity to be embedded in the carbon fixation treatment entity The weight data and fixed carbon percentage data and embedded processing data reported buried organic material coal, and a reduction of carbon dioxide emissions administrative system 78 for transmitting from the entity by the registration system. Further, the computer system 68 of the carbon dioxide emission amount manager receives the confirmation request number data transmitted from the computer system 69 of the carbon dioxide emission reduction manager via the connection and the confirmation request number data transmitted together with the confirmation request number data. The reduced carbon dioxide emission data and the confirmation data are registered in the carbon dioxide emission reduction manager system 78.
[0054]
In response to this registration, the computer system 68 of the carbon dioxide emission manager has a reduced carbon dioxide emission calculation system 79 for determining the reduced carbon dioxide emission. The reduced carbon dioxide emission calculation system 79 reads the reduced carbon dioxide emission data of the registration application from the registration system 77 for each business entity, and the reduced carbon dioxide emission confirmed from the system 78 for carbon dioxide emission reduction managers. And the reduced carbon dioxide emission data of the registration application read from the registration system 77 for each business entity and the confirmed reduced carbon dioxide emission data read from the system 78 for carbon dioxide emission reduction manager. And confirm that the difference between the two is within the allowable range, and determine the reduced carbon dioxide emissions. If the difference between the two is outside the allowable range, the computer system 68 of the carbon dioxide emission manager will determine the amount of reduced carbon dioxide emission applied to the registration application entity via the lines 73 and 75 and the connection of the Internet 72. Notify the correction data and confirm the reduced carbon dioxide emissions. The determined reduced carbon dioxide emission data is registered in the reduced carbon dioxide emission calculation registration system 79. The reduced carbon dioxide emission calculation registration system 79 calculates a carbon dioxide emission reduction unit based on the registered confirmed reduced carbon dioxide emission amount, registers the calculated carbon dioxide emission reduction unit, Open to each entity that participates in the emissions trading system.
[0055]
The computer system 69 of the carbon dioxide emission reduction manager includes confirmation request data, organic material weight data, fixed carbon percentage data transmitted from the carbon dioxide emission reduction manager system 78 of the carbon dioxide emission manager 68, Volatile content data, carbon content data in the volatile content, identification data of a carbon fixing treatment entity that embeds the organic material charcoal in a concrete molded body or ground, weight of the organic material coal embedded by the carbon fixing treatment entity A confirmation request application registration system 80 for registering data, fixed carbon percentage data, and burial process report data and transmitting confirmation request number data to the computer system 78 of the carbon dioxide emission manager is provided. Based on the data transmitted from the carbon dioxide emission manager 68 registered in the confirmation request registration system 80, carbon dioxide emission data and organic material charcoal from combustion of volatile matter are embedded in a concrete molded body or underground. A calculation reporting system 81 is provided that calculates the converted carbon dioxide emission amount of the carbon of the organic material charcoal that has been processed and fixed in the concrete, or the confirmed reduced carbon dioxide emission data.
[0056]
The enterprises 70 and 71 to which the carbon dioxide quota emission amount is assigned respectively send the carbon dioxide emission amount used to the carbon dioxide emission amount manager computer system 68 via the lines 75, 76 and 73 and the Internet 72. In order to apply for registration, a reduced carbon dioxide emission registration application system 82 for transmitting reduced carbon dioxide emission data is provided. In the computer system 70 of a business entity that is used for carbonization of an organic material to produce organic material charcoal, and the organic material charcoal thus produced is used for embedding in a concrete molded body or underground, an analytical calculation of reduced carbon dioxide emissions A system 83 is provided. The reduced carbon dioxide emission analysis calculation system 83 includes, for example, a dry distillation unit shown in FIG. 1, and includes a weight measuring unit and a sampling unit of an organic material to be subjected to dry distillation, and the organic material is weight-measured. The weight is measured by the means and sampled by the sampling means. The weight of the organic material charcoal obtained by dry distillation is also measured and sampled. Samples of sampled organic material and organic material charcoal are volatile matter and fixed for organic material according to JIS M 8812 Coal and coke-industrial analysis method volatile content determination method and fixed carbon percentage calculation method, respectively. The carbon percentage is measured.
[0057]
The volatile matter and fixed carbon percentage measuring means of the organic material measures the carbon content of the volatile matter and the carbon content of the organic material charcoal for the organic material carbonized by dry distillation. In the dry distillation process of the organic material, the organic material generates cracked gas volatiles by thermal decomposition, and the volatiles burn to generate carbon dioxide. The volatile component that is the cracked gas contains a carbon component and a hydrogen component, and the carbon component is converted into carbon dioxide by combustion, so that the total amount of volatile component is not converted to carbon dioxide. Therefore, the volatile matter is taken out from the carbonization apparatus, subjected to elemental analysis and subjected to elemental analysis, and the carbon content obtained by the elemental analysis is converted into volatile matter combustion carbon dioxide. The organic material charcoal produced by dry distillation is mostly carbon except for ash, but when the dry distillation temperature is low, the volatile component remains in the organic matter as undecomposed soot. It is preferable to obtain a fixed carbon percentage for the organic material charcoal.
[0058]
In this example, the carbon component of the volatile component measured for the organic material is further measured by elemental analysis, and the carbon component of the volatile component is the combustion carbon dioxide emission amount of the organic material. Since the weight data and fixed carbon percentage data measured for the organic material charcoal are used to determine the carbon content of the organic material charcoal, the organic material charcoal is in the concrete compact or ground, for example, as a soil conditioner, This is carbon content data of organic material charcoal used as a soil improvement material when sprayed and fixed in the ground, and is converted into carbon dioxide content and reduced carbon dioxide emissions. For organic materials, it is possible to calculate weighted carbon dioxide emissions and reduced carbon dioxide emissions by obtaining weight data, volatile data, carbon component data and fixed carbon percentage data. It is preferable to compare the reduced carbon dioxide emission amount obtained here with the reduced carbon dioxide emission amount calculated from the weight data of the organic material coal and the fixed carbon percentage data because the accuracy of the data can be checked. Since the weight, volatile content, carbon content and fixed carbon percentage of the organic material differ depending on the carbonization temperature, it is preferable to determine in advance which analysis of the organic material and the organic material charcoal is stable. The weight of organic material and organic material charcoal and the percentage of fixed carbon are basic data for calculating the amount of carbon fixed in the concrete molded body or the ground, and are the reduced carbon dioxide emissions in terms of carbon dioxide. . Weight data of organic material coal and fixed carbon percentage data obtained by measuring means, weight data of organic material coal subjected to carbonization treatment, fixed carbon percentage data, and weight data of organic material coal buried by the carbon fixing treatment entity Thus, the combustion carbon dioxide emission amount of the volatile matter of the organic material and the reduced carbon dioxide emission amount of the organic material coal are calculated. The calculation and registration of the combustion carbon dioxide emission amount of the organic material and the reduced carbon dioxide emission amount of the organic material charcoal are performed by the calculation and registration system 83 of the carbon dioxide emission amount.
[0059]
The calculated carbon dioxide emission data calculated by the carbon dioxide emission calculation and registration system 83 and the reduced carbon dioxide emission data fixed to the concrete molded body or ground of the organic material charcoal are carbon dioxide. The data is read out to the registration application data preparation system 84 for the emission amount and the reduced carbon dioxide emission amount, and is used for the concrete molded body or the underground fixing in the data preparation system 84 for registration application of the carbon dioxide emission amount and the reduced carbon dioxide emission amount. Identification data of a carbon-fixed treatment entity in which organic material charcoal is buried in a concrete molded body or underground, weight data of organic material coal fixed in a concrete molded body or underground by the carbon fixation treatment entity, the carbon Along with the fixed processing report data and organic material fixed carbon percentage data, the carbon dioxide emission data And to reduce carbon dioxide emissions data, data as a series of carbon dioxide emissions data and reduction of carbon dioxide emissions registration data. The registration application data for the carbon dioxide emission amount and the reduced carbon dioxide emission amount converted into a series of data is registered in the registration application data creation system 84 for the carbon dioxide emission amount and the reduced carbon dioxide emission amount. The carbon dioxide emission and reduced carbon dioxide emission registration application system 82 is converted into data as a series of data created and registered by the registration application data preparation system 84 for the carbon dioxide emission and reduced carbon dioxide emission. The registration data for the carbon dioxide emission amount and the reduced carbon dioxide emission amount is transmitted to the computer system 68 of the carbon dioxide emission amount manager.
[0060]
Since the present example is configured as described above, the business entity 70 that disposes of the organic material that is the target of the carbon dioxide allotment emission amount dry-distills the organic material to form organic material charcoal. The organic material charcoal is fixed by being buried in a concrete molded body or in the ground as a soil conditioner or filler. In this case, the business entity that carbonizes the organic material into an organic material charcoal measures the weight of the organic material to be carbonized by the organic material weight measuring means before the carbonization, and after the measurement, from the organic material Collect an analytical sample. Analytical samples are also collected from the organic material charcoal after dry distillation. The collected organic material and organic material charcoal samples are measured for volatile content (%) and fixed carbon percentage (%) by the organic material fixed carbon measuring means, respectively. The volatile matter generated in this measurement process is subjected to elemental analysis by elemental analysis means, and the carbon content (%) in the volatile matter is measured. In the calculation and registration system 83 for carbon dioxide emission, these measured fixed carbon percentage and volatile data are multiplied by the weight data of the organic material or organic material charcoal, respectively, and the volatile content data of the organic material and the organic material charcoal are calculated. Calculate and register the carbon content data, multiply the volatile content data by the volatile content carbon data, calculate and register the volatile content carbon content data of the organic material, and register the volatile content carbon of the organic material CO2 conversion coefficient (CO2) is included in the amount data and carbon amount data of organic waste carbon and organic material charcoal. ₂ / C: 44.010 ÷ 12.01115 = 3.664), respectively, and the converted carbon dioxide data for the volatile matter carbon content of the organic material and the converted carbon dioxide data for the carbon content of the organic material and organic material coal. Calculate and register. Here, the converted carbon dioxide amount data of the volatile carbon amount is the carbon dioxide emission data used within the carbon dioxide allotment emission amount, and the converted carbon dioxide amount data of the carbon amount of the organic waste material and the organic material coal is This is carbon dioxide emission data fixed to a concrete molded body or underground, and reduced carbon dioxide emission data.
[0061]
The carbon dioxide emission data calculated by the calculation and registration system 83 of the carbon dioxide emission and used within the carbon dioxide allocated emission and the reduced carbon dioxide emission data fixed in the concrete molded body or the ground are the carbon dioxide emission Identification of the carbon fixation treatment business entity that is read into the data preparation system 84 for registration application of the amount and reduction of carbon dioxide emissions and embedded in the concrete molded object or the underground material carbon for use in underground fixation The carbon dioxide emission and reduction along with the data, weight data of the concrete material or organic material coal fixed in the ground by the carbon fixation treatment entity, the carbon fixation treatment report data, and the fixed carbon percentage data of the organic material It is converted into a series of data for carbon dioxide emission registration application. The carbon dioxide emission and reduced carbon dioxide emission registration application data converted into a series of data is taken out and registered in the carbon dioxide emission and reduction carbon dioxide emission registration application system 82, and the carbon dioxide emission is registered. It is transmitted to the computer system 68 of the carbon emission manager.
[0062]
The computer system 68 of the carbon dioxide emission manager is configured to carbonize the organic material by carbonization, and the carbon dioxide emission transmitted from the computer system 70 of the business unit using the obtained organic material charcoal as a soil conditioner and Upon receiving the data for application for registration of reduced carbon dioxide emissions, the registration application number data is transmitted to the computer system 70 of the business entity using organic material charcoal as a soil conditioner. Among the data for carbon dioxide emission and reduction carbon dioxide emission registration application data, which is the basis for calculation of carbon dioxide emission data and reduced carbon dioxide emission data, in other words, carbon dioxide emission data and reduction Data other than carbon dioxide emission data, that is, identification data of a concrete molded body or a carbon fixing treatment entity in which organic material charcoal intended for fixing in the ground is buried in the concrete, or the carbon fixing treatment entity The computer system 69 of the carbon dioxide emission reduction manager, together with the confirmation request data, the weight data of the organic material coal fixed in the concrete molded body or the ground, the carbon fixation processing report data, and the fixed carbon percentage data of the organic material. Transmit to.
[0063]
The carbon dioxide emission reduction manager computer system 69 registers the confirmation request data transmitted from the carbon dioxide emission manager computer system 68 in the confirmation registration system 80 and confirms the receipt of the confirmation request data. The request number data is transmitted to the computer system 68 of the carbon dioxide emission manager. Upon receipt of the confirmation request, the carbon dioxide emission reduction manager, for example, confirms the amount of organic material coal used as the soil improvement material for which the confirmation request has been made, and the amount of organic material coal used as the soil improvement material Confirm that it matches the contents of the confirmation request data. In this manner, the carbon dioxide emission reduction manager confirms the carbon dioxide emission amount and the data used as the basis for the calculation of the reduced carbon dioxide emission amount by inquiring the carbon fixing treatment business entity. The computer system 69 of the carbon dioxide emission reduction manager uses the calculation report system to calculate the carbon dioxide emission amount and the basis for calculating the reduced carbon dioxide emission amount that the carbon dioxide emission reduction manager has confirmed from the carbon fixation processing entity. Calculate the confirmed carbon dioxide emissions and reduced carbon dioxide emissions based on the data to be calculated, and report the confirmed carbon dioxide emissions data and confirmed reduced carbon dioxide emissions data together with the confirmation request number data Registered in the system 81 and the registered and confirmed carbon dioxide emission data and the confirmed reduced carbon dioxide emission data from the computer system 69 of the carbon dioxide emission reduction manager, the computer system of the carbon dioxide emission manager 68.
[0064]
The computer system 68 of the carbon dioxide emission manager was confirmed when the confirmation report data of the carbon dioxide emission and the reduced carbon dioxide emission was transmitted together with the confirmation data from the computer system 69 of the carbon dioxide emission reduction manager. Compare the carbon dioxide emission data with the carbon dioxide emission data of the registration application, confirm that the difference between the two data is within a certain range, and confirm the carbon dioxide emission data. Compare the reduced carbon dioxide emission data with the reduced carbon dioxide emission data of the registration application, confirm that the difference between the two data is within a certain range, determine the reduced carbon dioxide emission, The determined carbon dioxide emission amount and the reduced carbon dioxide emission amount are registered in the carbon dioxide emission amount and the reduced carbon dioxide emission calculation registration system 79. The confirmed reduction of carbon dioxide emissions is assigned and accounted for by the corresponding carbon dioxide emission reduction unit. When the carbon dioxide emission reduction unit is recorded, the carbon dioxide allocation emission amount is reduced by the reduced carbon dioxide emission amount recorded in the carbon dioxide emission reduction unit. The carbon dioxide emission and reduction carbon dioxide emission calculation / registration system 79 includes a newly established dioxide dioxide by subtracting the entity name, carbon dioxide emission reduction unit, and reduction carbon dioxide emission from the carbon dioxide allocation emission. Carbon quota emissions are registered. The computer system 68 of the carbon dioxide emission manager transmits the carbon dioxide emission reduction unit registration data to the entity that has applied for registration for the reduced carbon dioxide emission, and has a newly registered carbon dioxide emission reduction unit. By providing the business entity to all business entities participating in the carbon dioxide emissions trading system, it will be used for carbon dioxide emissions trading. Each business entity can know the transmitted public contents by, for example, displaying it on a computer display or printing it. The business entity that has applied for registration, when compared with the reduced carbon dioxide emissions applied for registration, requests correction via the computer network if the registered content does not match.
[0065]
Entities that do not work unless they exceed the carbon dioxide quota emissions and consume carbon dioxide are those in which the amount of carbon dioxide is counted in the carbon dioxide emission reduction unit from the computer network of the carbon dioxide emissions manager Search for the body and make a contract to transfer the required carbon dioxide emission reduction units. The computer system of the entity that receives carbon dioxide reduction carbon dioxide emissions is transferred to the computer system of the carbon dioxide emission manager, the identification data of the entity to be transferred and the entity to be transferred, the transfer data of the carbon dioxide emission reduction unit, and the carbon dioxide emission The reduction unit registration data is transmitted, and the application data of the procedure for transferring the carbon dioxide emission reduction unit possessed by the business unit to be transferred to the business unit to be transferred is transmitted. In response to this application procedure, the computer system 68 of the carbon dioxide emission manager transfers the carbon dioxide emission reduction unit data possessed by the business entity to be transferred to the business entity to be transferred, and corresponds to the carbon dioxide emission reduction unit data received. Add the carbon dioxide emissions data to the carbon dioxide quota emissions data of the transferred entity. Due to the transfer of the carbon dioxide emission reduction unit, the carbon dioxide quota emission amount is increased, and the revised carbon dioxide quota emission amount is registered in the computer system 68 of the carbon dioxide emission amount manager. In this way, an entity that has set a carbon dioxide quota emission amount that has increased its carbon dioxide emission amount corresponding to the carbon dioxide emission reduction unit will be able to cover the required carbon dioxide emission amount, and the business that it needs. Will do. Moreover, the change of the carbon dioxide allocation emission amount accompanying transfer of such a carbon dioxide emission reduction unit can be disclosed to the entity which joins a carbon dioxide emission trading system by a computer network.
[0066]
【The invention's effect】
In the present invention, an organic material is molded into a lump, the molded product is dried, and the dried product is carbonized by dry distillation at a temperature of 150 ° C. to 550 ° C. in an atmosphere containing almost no oxygen gas. Therefore, it can be used as, for example, a soil improving material or a heat insulating material, and can be used as a material for landfill or soil. By carbonizing the surplus organic material that has been considered difficult to process in the past, carbon dioxide can be avoided and processed, and the unit of carbon dioxide emission reduction can be increased. In addition, the carbon dioxide emissions can be reduced, which can greatly contribute to the emission trading and the prevention of global warming. Emissions trading can be performed via the Internet, and it is possible to facilitate emissions trading not only in Japan but also on a global scale, which greatly contributes to the environment.
[Brief description of the drawings]
FIG. 1 is a schematic process diagram of a carbonization process of an organic material according to the present invention.
FIG. 2 is a block diagram of a computer system in the carbon dioxide emission trading of the present invention.
[Explanation of symbols]
1 Organic material
2 Organic material supply tank
3 Organic material fixed supply tank 2 outlet
4 Crusher
5 Organic material transfer conveyor
6 Exit of crusher 4
7 Drying equipment
8 Inlet of the drying device 7
9 Organic material crushed material transfer conveyor
10 Organic material crushed material introduction path
11 On-off valve of the organic material crushed material introduction path 10
12 Double mixer
13 Discharge port of crushed organic material transfer conveyor 9
14 Dry matter outlet
15 Exhaust gas outlet of drying device 7
16 Exhaust gas circulation inlet of dryer
17 Carbonization furnace exhaust combustion furnace
18 Combustion furnace exhaust
19 Carbonization furnace exhaust combustion gas introduction port from combustion furnace exhaust port 18
20 Dry exhaust fern
21 Cyclone separator
22 Inlet of cyclone separator 21
23 Fine particle side outlet of cyclone separator 21
24 Exhaust gas flow path
25 Branch
26 Exhaust gas branch passage
27 Deodorizing device
28, 35 Combustion device
29 Roll press mold forming roll
30 Carbonization furnace exhaust combustion gas pipe
31 Carbonization furnace
32 Carbonizer exhaust outlet
33 Carbonization furnace exhaust gas pipe
34 Carbonization furnace exhaust gas inlet
36 Dry matter discharge conveyor
37 Drying material transfer conveyor
38 End for connection of dry matter transfer conveyor 37
39 Coarse particle side outlet of cyclone separator 21
40 Coarse particle side waste transfer conveyor
41 Discharge port of dry matter transfer conveyor 37
42 Dry matter distribution conveyor
43 End of dry matter distribution conveyor 42
44 Dry matter storage tank
45 Middle part of dry matter distribution conveyor 42
46 Dry matter return conveyor
47 Discharge end of dry matter return conveyor 46
48 Supply port formed below the dry matter storage tank
49 Carbonized raw material transfer conveyor
50 Discharge port of carbonized raw material transfer conveyor 49
51 Carbonized raw material conveyance path
52 Carbonization raw material inlet of the carbonization furnace 31
53 Charcoal outlet of carbonization furnace 31
54 Charcoal discharge conveyor
55 Introduction port of charcoal discharge conveyor 54
56 Charcoal discharge port of the charcoal discharge conveyor 54
57 Cooling machine
58 Inlet of the cooler 57
59 Discharge port of cooler 57
60 Charcoal transfer conveyor
61 Discharge port of charcoal transfer conveyor 60
62 Bag filling machine
63 Product tank
64 Exhaust port of cooler 57
65 Exhaust gas conduit
66 Dry type dust collector
67 Level meter
67 'CO2 emission trading system
68 CO2 Emission Manager Computer System
69 Computer system of CO2 emission reduction manager
70 and 71 Business entity computer systems
72 Internet
73, 74, 75 and 76 lines
77 Business registration system
78 CO2 Emission Reduction Manager's System
79 Reduction CO2 emission calculation registration system
80 Confirmation request registration system
81 Confirmed reduction CO2 emission data calculation reporting system
82 Reduction CO2 Emission Registration Application System
83 Reduction CO2 emission analysis calculation system
84 Data production system for carbon dioxide emission registration application for reduction

Claims (8)

  The organic material that is subject to the carbon dioxide allotment emission is dry-distilled to form organic material charcoal, and the formed organic material charcoal is sampled to collect an analysis sample of the organic material charcoal. The percentage of fixed carbon is measured for the analytical sample, and at least a part of the organic material charcoal is measured for its weight and buried in the concrete molded body or the ground, and the concrete molded body or the organic material charcoal buried in the ground is measured. The amount of carbon is calculated from the weight of the embedded organic material charcoal and the fixed carbon percentage of the organic material charcoal, and the amount of carbon embedded in the concrete molded body or underground is converted into the amount of carbon dioxide. A method for suppressing carbon dioxide, characterized by being based on a unit for reducing carbon dioxide emissions. Before the organic material subject to the carbon dioxide quota emission is dry-distilled, the weight of the organic material is measured, the organic material is sampled, an analysis sample of the organic material is collected, and the analysis of the organic material is performed. The sample is measured for a fixed carbon percentage, the sampled organic material is carbonized to form an organic material charcoal, the weight of the formed organic material charcoal is measured, and the weight of the organic material charcoal whose weight is measured is measured. At least a portion is weighed and buried in a concrete molded body or in the ground, and the amount of carbon buried in the concrete molded body or in the ground is calculated based on the weight of the organic material, the percentage of fixed carbon in the organic material, and the formed organic material. Calculated from the weight ratio of the concrete molded body to the material charcoal or the organic material charcoal buried in the ground, the amount of carbon buried in the concrete molded body or the ground Reduction in terms of the amount of carbon dioxide suppression method, which comprises the amount of carbon dioxide as the basis for carbon dioxide emission reduction units. Before the organic material subject to the carbon dioxide quota emission is dry-distilled, the weight of the organic material is measured, the organic material is sampled, an analysis sample of the organic material is collected, and the analysis of the organic material is performed. samples, the volatiles were measured for the volatiles by further measuring the carbon component content of the volatiles, determined the amount of carbon contained in the volatile matter, by dry distillation of the sampled organic material, An organic material charcoal is formed, and at least a part of the formed organic material charcoal is weighed and buried in the concrete molded body or the ground, and the weight of the organic material charcoal embedded in the concrete molded body or the ground and From the fixed carbon percentage of the organic material charcoal, the amount of carbon buried in the concrete molded body or underground is obtained, and the amount of carbon buried in the concrete molded body or underground is calculated as the amount of carbon dioxide. In terms, the volume of carbon dioxide as a basis for carbon dioxide emission reduction units, the amount of carbon contained in the prior SL volatiles in terms of the amount of carbon dioxide, characterized in that the carbon dioxide emissions using dioxide Carbon suppression method. The computer system of the carbon dioxide emission manager, the computer system of the carbon dioxide emission reduction manager, and each business entity computer system in which the allocated emission amount of carbon dioxide emission is set are connected to each other via the Internet. In the carbon dioxide emissions trading system, the organic materials subject to carbon dioxide quota emissions are dry-distilled to form organic material charcoal, and the formed organic material charcoal is sampled to prepare an organic material charcoal analysis sample. Collecting, measuring the percentage of fixed carbon for the collected organic material charcoal analysis sample, measuring the weight of at least a part of the organic material charcoal and embedding it in the concrete molded body or ground, this concrete molded body or ground The amount of carbon in the organic material charcoal embedded in the Calculated from the fixed carbon percentage of coal, convert the amount of carbon embedded in the concrete or underground into carbon dioxide, and use it as the reduced carbon dioxide emission. Based on this reduced carbon dioxide emission The registration application entity that applies for registration of carbon dioxide emission reduction units, and the computer system of the entity that participates in the carbon dioxide emission trading system, the computer system of the carbon dioxide emission manager, Identification data of computer system of registration application entity, reduction carbon dioxide emission data to be applied for registration and registration application data, organic material charcoal embedded in concrete material or organic material charcoal buried data reported, buried weight data及beauty organic material coal buried organic material coal in the concrete molded body or underground Transmitting a fixed carbon percentage data, the computer system of the carbon dioxide emissions administrator, the computer system of carbon dioxide emission reduction administrator, transmitted reduced carbon emissions data from the computer system of the registration entity, its confirmation request data, embedded reported data and concrete moldings or ground in a buried organic material coal buried weight data, fixed carbon percentage data and reducing carbon dioxide emissions of the organic material coal buried entities organic material coal The carbon dioxide emission reduction manager's computer system transmits the confirmation request number data of the carbon dioxide emission reduction manager's computer system, and receives the reduced carbon dioxide emission confirmation request data transmitted from the computer system. Reduced carbon dioxide emissions data from the buried material Compared with the report data, the embedded weight data of the organic material coal embedded in the concrete molding or underground, and the reduced carbon dioxide emission data calculated based on the fixed carbon percentage data of the organic material that is the material of the organic material coal Then, confirm that the difference is within the allowable range, and transmit the confirmed reduced carbon dioxide emission data and the confirmation data to the computer system of the carbon dioxide emission manager to manage the carbon dioxide emission The person's computer system receives the confirmed reduction carbon dioxide emission data and the confirmation data from the carbon dioxide emission reduction manager's computer system, and based on the confirmed reduction carbon dioxide emission data, Register the carbon emission reduction unit, and use the carbon dioxide quota emission data of this registration application entity to The carbon dioxide quota emission data obtained by subtracting the elemental emission data is registered as the carbon dioxide quota emission data reduced by the registration application entity, and the reduced carbon dioxide emission reduction unit and All of the businesses that join the carbon dioxide emission trading system with the registered carbon dioxide emission reduction unit. A method for suppressing carbon dioxide, characterized in that the method is transmitted to a computer system of the body and disclosed for use in carbon dioxide emission trading.   The computer system of the carbon dioxide emission manager, the computer system of the carbon dioxide emission reduction manager, and each business entity computer system in which the allocated emission amount of carbon dioxide emission is set are connected to each other via the Internet. In the carbon dioxide emission trading system, before the organic material subject to carbon dioxide quota emission is dry-distilled, the weight of the organic material is measured, the organic material is sampled, and an analysis sample of the organic material is obtained. Collecting and measuring the volatile matter, the carbon content and the fixed carbon percentage of the analysis sample of the organic material, and dry-distilling the organic material from which the sampled analysis sample was collected, Form the volatile matter, measure the weight of the formed organic material charcoal and volatile matter, and measure the weight of the organic matter At least a part of the charcoal is weighed and embedded in a concrete molded body or in the ground, and the amount of carbon buried in the concrete molded body or in the ground is determined by the weight of the organic material, the percentage of fixed carbon in the organic material, and the formation. It was calculated from the weight ratio of the concrete molded body or the organic material coal buried in the ground relative to the organic material coal that was made, and the amount of carbon buried in the concrete molded body or the ground was converted into the amount of carbon dioxide and reduced. The amount of carbon dioxide, the amount of carbon contained in the volatile matter is converted into carbon dioxide, and the amount of carbon dioxide emitted is calculated as the amount of carbon dioxide emitted. A computer of a registration application entity that applies for registration of carbon dioxide emission reduction units and that is a member of the carbon dioxide emission trading system. The system includes the computer system of the carbon dioxide emission manager, the identification data of the computer system of the registration application entity, the weight data of the organic material that has been subjected to the carbonization treatment, the volatile content data of the organic material, Carbon content data of organic material coal obtained by dry distillation treatment, carbon content data of volatile matter generated by the dry distillation treatment, fixed carbon percentage data of the organic material, organic material coal obtained by dry distillation The reduced carbon dioxide emission data and combustion carbon dioxide emission data including the burial processing report data of the organic material coal of the enterprise buried therein are transmitted, and the computer system of the carbon dioxide emission manager is the registration application entity. Of the reduced carbon dioxide emission data and combustion carbon dioxide emission data transmitted from the computer system The reduced carbon dioxide emission confirmation request data having the confirmation request number data of the reduced carbon dioxide emission is transmitted to the computer system of the carbon dioxide emission reduction administrator, and the computer system of the carbon dioxide emission reduction administrator Calculated based on the confirmation request data of the reduced carbon dioxide emissions transmitted from the computer system of the emissions manager, and confirmed the reduced carbon dioxide emissions and combustion carbon dioxide emissions. , Confirm that the difference is within the allowable range compared with the reduced carbon dioxide emission filed for registration, and report the confirmation report data on the confirmed reduced carbon dioxide emission to the carbon dioxide emission manager computer. The combustion carbon dioxide emissions that have been transmitted to the system and confirmed are the combustion carbon dioxide emissions for which the registration application has been filed. Confirm that the difference is within the allowable range, and transmit the confirmed report data of the combustion carbon dioxide emission to the carbon dioxide emission manager computer system. The computer system receives the confirmed reduced carbon dioxide emission amount and the confirmation data from the computer system of the carbon dioxide emission reduction manager, and receives the carbon dioxide emission based on the confirmed reduced carbon dioxide emission data. The reduction unit is registered, and the carbon dioxide quota emission data obtained by subtracting the reduction carbon dioxide emission data from the carbon dioxide quota emission data of the registration application entity is used as the carbon dioxide quota reduction of the registration application entity. Register as emission data, and the registered carbon dioxide emission reduction unit and carbon dioxide reduced This emissions is transmitted to the computer system of the registration application entity, and the registered carbon dioxide emission reduction unit of the registration application entity is added to the carbon dioxide emission trading system. A method for suppressing carbon dioxide, characterized in that it is transmitted to the system and disclosed to the public for carbon dioxide emissions trading.   When the entity that received the disclosure wishes to transfer the carbon dioxide emission reduction unit, the computer system of the entity that receives the carbon dioxide emission reduction unit is The transfer of the carbon dioxide emission reduction unit together with the identification data of the entity transferring the carbon dioxide emission reduction unit and the entity receiving the carbon dioxide emission reduction unit that has been agreed to the transfer, and the carbon dioxide emission reduction unit transfer certificate data related to the transfer The application data is transmitted to the computer system of the carbon dioxide emission manager, and the computer system of the carbon dioxide emission manager is related to the transfer from the transferred unit's carbon dioxide emission reduction unit data by the calculation system. Subtracted carbon dioxide emission reduction unit data and received the above Add the carbon dioxide emission corresponding to the transferred carbon dioxide emission reduction unit to the carbon dioxide allocation emission data of the business entity, and register it as the increased carbon dioxide allocation emission data of the acquired business entity. 6. The method for suppressing carbon dioxide according to claim 4, wherein the increased carbon dioxide allocated emission data is transmitted to the computer system of the business entity that has been transferred.   Organic material is an annual plant or perennial plant or annual plant and one or more types of stem, leaf or root waste, plastic waste, juice squeezed paper, waste paper, waste wood, plastic waste, sewage sludge, animal manure, food sludge, The method for suppressing carbon dioxide according to any one of claims 1 to 5, wherein the method is compost, garbage, fruit and vegetable residues or paper, or a mixture of two or more of the foregoing.   The computer system of the carbon dioxide emission manager, the computer system of the carbon dioxide emission reduction manager, and each entity computer system in which the allocated emission amount of carbon dioxide emission is set are connected to each other via the Internet, and An emission trading system is configured, and in this system, the computer system of the carbon dioxide emission manager, the computer system of the carbon dioxide emission reduction manager, and each business entity in which the allocated emission amount of the carbon dioxide emission is set. Each computer system is provided with individual identification data, and the computer system of the carbon dioxide emission manager includes identification data, carbon dioxide allocation emission data, and Carbon dioxide emission reduction unit data registration means and carbon dioxide The identification data of the emission reduction manager, the confirmed reduction carbon dioxide emission data sent from the computer system of the carbon dioxide emission reduction manager, the registration means for the confirmation data, and the confirmed reduction carbon dioxide emission data Based on the calculated carbon dioxide emission reduction unit data, change the allocated carbon dioxide emission amount by the calculated carbon dioxide emission reduction unit, and provide the calculation disclosure means to disclose the carbon dioxide emission reduction unit, and reduce the carbon dioxide emission The computer system of the administrator includes the identification data of the computer system of the carbon dioxide emission manager, the requested reduction carbon dioxide emission data transmitted from the computer system of the carbon dioxide emission manager, and the confirmed reduction carbon dioxide. Emission data is registered and confirmed reduced carbon dioxide emission data and confirmation A registration response means for transmitting the data to the computer system of the carbon dioxide emission manager, a calculation means for comparing and calculating the reduced carbon dioxide emission data requested for confirmation and the confirmed reduced carbon dioxide emission data, At least one of the entity's computer systems for which a carbon dioxide quota emission has been set registers the identification data of the carbon dioxide emissions manager and the carbon dioxide quota emissions data assigned to the entity, and uses the carbon dioxide used. The carbon dioxide emissions data reporting means used to report the carbon emissions to the computer system of the carbon dioxide emissions manager, the reduced carbon dioxide emissions of the entity calculated, and the reduced carbon dioxide emissions data Registration application means to apply for registration to the computer system of carbon dioxide emission manager, and volatile content of organic materials A carbonization unit for carbonic distillation of an organic material subject to the carbon dioxide allotment emission amount of the entity, and a measurement data of the measurement unit and a carbonization of the organic material. Reduced carbon dioxide emission data calculation by calculating the converted carbon dioxide emission from the concrete molded body of the organic material coal burial enterprise formed by or the buried processing report data buried in the ground and using it as the reduced carbon dioxide emission And a carbon dioxide suppression system.

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